Archive for Electricity

RB | February 8, 2010
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WiFi Harvester

Computerworld reports that RCA demonstrated a prototype device that converts WiFi radio signals into DC power to charge wireless devices.  The WiFi Hotspot Power Harvester, also known as Airnergy,  was shown at the 2010 Consumer Electronics Show . RCA’s device was able to charge a BlackBerry Bold with about 30 percent power in 90 minutes using WiFi access points located nearby, according to an RCA official  recorded on video by Geeky-Gadgets.com. The amount of charging time depends on a user’s proximity to the Wi-Fi hot spot.

The Airnergy unit stores the charge in an internal lithium battery, so you don’t necessarily have to be in a hot spot to recharge  your device.  The device  is about 2 in. by 3 in. in size and will sell for $39 to $49 this summer.  RCA said it is developing a smaller version that would replace a battery inside a hand-held device and sell for about $60. That smaller version could ship in 2011.

Demonstrations of wireless chargers have been a staple of CES for several years, and some products promised in 2008 have not materialized. Some products, such as the Dell Latitude Z laptop, allow charging by placing the laptop directly on a wireless charging stand. Fulton Innovation LLC, (I wrote about here) showed products and prototypes at CES. One Fulton technology concept powers a 12-watt light bulb from a transmitter placed 35 inches away.  Powermat USA showed new wireless charging mats for handheld computers at prices ranging from $39 to $149, and the company’s CEO said Powermat has sold 750,000 devices since the company launched two months ago.

There is much skepticism over this product. The inverse-square law roughly says in this case that the signal would decrease in intensity inversely proportional to the square of the distance. Double the distance and signal strength drops by a fourth and so on. Thus at the distance at which most people find themselves from access points, the amount of energy available is minute.

Here is an article from SensorMag.com that describes how RF energy harvesting works.

Category: Electricity, Green | Tags: ,
RB | August 14, 2009
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Nokia Tries Wireless Electricity

electricityThanks to the researchers at Nokia, some day, putting your cell phone in standby mode may no longer cause the dreaded vampire power. Vampire power is frequently described as pointlessly wasting electricity with little benefit other than a small red light and instant start-up. According to an article in the UK’s Guardian, Nokia is developing a mobile phone charging system which is able to power itself on nothing more than ambient radiowaves that constantly surround us. The Guardian article points out that old crystal radio sets and modern radio frequency identification (RFID) tags are powered purely by radiowaves. Nokia claims that it’s system is able to scavenge enough ambient electromagnetic radiation emitted from Wi-Fi transmitters, cell-phone antennas, TV towers, and other sources miles away to operate a cell phone. Individually the energy available in each of these signals is minute,  but by harvesting radiowaves across a wide range of frequencies it all adds up, said Markku Rouvala, one of the researchers who developed the device at the Nokia Research Center in Cambridge, UK..

Nnokia_logookia’s device uses a wide-band antenna and two very simple passive circuits. The antenna and the receiver circuit are designed to pick up  frequencies from 500 megahertz to 10 gigahertz and convert the electromagnetic waves into an electrical current. The second circuit is designed to feed this current to the battery to recharge it.

“Even if you are only getting microwatts, you can still harvest energy, provided your circuit is not using more power than it’s receiving,” Rouvala told Technology Review. So far the researchers been able to harvest up to 5 milliwatts (mW). Their next goal is to get in excess of 20 mW, enough power to keep a phone in standby mode indefinitely. but not enough to actually use the phone to make or receive a call the researcher  says.  Rouvala says that his group is working towards a prototype that could harvest up to 50 mW of power, enough to slowly recharge a phone that is switched off.

Earlier this year, Joshua Smith at Intel and Alanson Sample at the University of Washington, in Seattle, developed a temperature-and-humidity sensor that draws its power from the signal emitted by a 1.0-megawatt TV antenna 4.1 kilometers away. This only involved generating 60 microwatts.  Smith says that 50 mW could require around 1,000 strong signals and that an antenna capable of picking up such a wide range of frequencies would cause efficiency losses along the way.

Harry Ostaffe, head of marketing for Pittsburgh-based company Powercast, which sells a system for recharging sensors from about 15 meters away with a dedicated radio signal told Technology Review, “To get 50 milliwatts seems like a lot.”

If Nokia’s claims stand up, then it could push energy harvesting into mainstream consumer devices and improve their environmental footprint. Steve Beeby, an engineer and physicist at the University of Southampton, U.K., who has researched harvesting vibrational energy, adds, “If they can get 50 milliwatts out of ambient RF, that would put me out of business.” He says that the potential could be huge because MP3 players typically use only about 100 milliwatts of power and spend most of their time in lower-power mode.

According to Technology Review. Nokia is being cagey with the details of the project, but Rouvala is confident about its future: “I would say it is possible to put this into a product within three to four years.” Ultimately, though, he says that Nokia plans to use the technology in conjunction with other energy-harvesting approaches, such as solar cells embedded into the outer casing of the handset.

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As I have chronicled in the past and here,  wireless power is a good solution looking for a way to be implemented. Wireless power has now hit the GartnerHype-Cycle.” According to the July 2009 Gartner Hype-Cycle, Wireless Power has just entered the “Peak of Inflated Expectations” zone and is still 5-10 years from mainstream adoption.  This technology  hold many benefits to the environment (less wasted electricty) and user convenience (how many propeirtrary power adapters do you have?), it is yet to be seen if consumer demand can over-come the inertia of the status-quo and the power of big money lobbying by the coal, nuclear and utilities. Right now my money is on the money.

Category: Electricity, Green, Wireless | Tags: , , ,
RB | June 27, 2009
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Wireless Power Gets Closer

intel_logoIntel has been working on wireless power transmission technology for several years, which I wrote about earlier, that now works over longer distances. At its Intel Research Day at the Computer History Museum in Mt. View California, on 06-18-2009, the company showed off a new variation of the idea that power can be transmitted through the air to run a speaker without any other power source.

Intel now calls the technology Wireless Resonant Energy Link (WREL). Intel’s goal of the WREL project is to cut the power cord. Building on principles proposed by MIT physicists in 2006, the WREL team has lit a 60W light bulb at a range of several feet and with 70%  efficiency.  WREL works in a fashion similar to the old 1970′s Memorex commercial staring Ella Fitzgerald where a singer can shatter a glass by hitting  its natural frequency, at which it absorbs energy efficiently. In the case of WREL, a coil of wire with a natural frequency around 10MHz takes the place of the glass, and a similar coil takes the place of the singer. The technology uses two flat copper coils tuned to resonate at a particular frequency. One wire releases electromagnetic energy and the other picks it up in much the same way an opera singer can shatter a wine glass by singing at just the right pitch, said researcher Emily Cooper. The wireless transmission shows efficiency of 90 percent at distances of up to a meter, she said.

Intel hopes the technology will be useful for charging devices like netbooks or smartphones in a room without wires. Intel also predicts the technology could be used within devices such as a laptop.  to replace the fallible wires that connect laptop screens through a hinge, Cooper said

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Intel admits that the next milestone for the WREL project is to build a rectifying circuit that can convert the RF power to DC power without upsetting the carefully tuned pair of coils.  Intel has demonstrated they can charge a light bul with 60W of wireless power, which should be sufficient to charge a laptop. However to power a laptop or charge a battery, Intel will need DC power, not a 10MHz AC signal. The need to drive down the power requirements for the next generation of computing devices is also helping drive Intel’s latest attempt to break into the UMPC process market with the Atom chips  and the next-generation “Moorestown” processor which boasts lower energy consumption requirements. It is also notable that Intel has a stated long-term plan of 60watts power for mainstream desktop processors, down from a maximum consumption 130 watts of the new Pentium Extreme Edition 840, according to Benson Inkley, a senior processor applications engineer, with Intel in an article at Tom’s Hardware.

While it seems that Intel is on a trajectory to cut the power requirements and costs of owning and operating a PC fleet, it will be a while. It is much more likely that Moorestown processors are going to aided by the pending IEEE 802.3at POE+ specification which will allow up  to at least 30W which can be used to charge devices. It is my guess that the reports of the demise of wired networking are greatly exaggerated until Intel figures out how to economically and safely deliver 60W through the vapor.

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Category: Electricity, Green, Hardware, PC | Tags: , , , , ,
RB | March 22, 2009
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Vampire Power Draining Budgets

electricityVampire power, aka standby power, phantom power, wall warts, standby loss, idle current, phantom power, ghost load and vampire load is costing business and consumers billions annually. The term vampire power refer to the electricity many devices and appliances waste just by being plugged in (even if they’re switched off). Due to poor design or short term manufacturer cost-cutting these devices draw power all the time. According to Grinning Planet, an Australian study of global standby power usage in electronic devices estimated that electronics manufacturers could reduce vampire power by 30% immediately just by using existing, better technologies-and with minimal additional cost to consumers.   Tree Hugger cites a study from  Future Forests, which says only 5% of the power drawn by cell phone chargers are actually used to charge phones. The other 95% is wasted when there is no phone in the charger to charge.

Grinning Planet also cites recent survey on the vampire power that in the United States, 5% of electricity usage is due to standby power. In Europe, the numbers run slightly higher: France at 7% and Germany and the Netherlands at 10% each. Australia comes in at 11%, Japan at 12%.

According to UC-Berkley the US consumes 26 percent of the world’s energy.  Of that energy, approximately 5 percent is vampire power. USAToday puts that in perspective, that’s between 200 and 400 terawatt hours — roughly as much electricity as the entire country of Italy consumes in a year. The Energy Information Administration says that in the United States alone, vampire power costs consumers more than $3 billion a year.

All this energy use enacts quite a hefty toll on the environment. Coal-burning power plants produce carbon dioxide, a leading cause of global climate change. Therefore, less vampire power translates to lower carbon emissions.

As a beginning I have installed Edison by Verdiem. Verdeim is a Seattle WA based start-up. The Edison software reportedly doesn’t completely shut the computer off but rather moves it to a “suspend” state, which uses less energy. Users can also schedule to shut down the screen and hard drive before going into suspend mode.

We’ll see what issues result from the installation of this software and the various states it can induce on my WinXP test box. In future updates I will also try out physical devices such as .

Watt Stopper/Legrand’s Isolé plug load controller

Smart Strip Power Strip

Power-Saving Essential SurgeArrest 7 from APC

Category: Electricity, Green | Tags: ,
RB | March 14, 2009
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Wireless Electricty Charging Up

electricityIntel demonstrated a wireless electric power system that could revolutionize modern life by eliminating chargers, wall outlets and eventually batteries all together by 2050. Intel chief technology officer Justin Rattner demonstrated a Wireless Energy Resonant Link at Intel’s 2008 developer’s forum.

Intel

During the demo electricity was sent wirelessly to a lamp on stage, lighting a 60 watt bulb that uses more power than a typical laptop computer. Most importantly, the electricity was transmitted without zapping anything or anyone that got between the sending and receiving units. “The trick with wireless power is not can you do it; it’s can you do it safely and efficiently,” according to Intel researcher Josh Smith. “It turns out the human body is not affected by magnetic fields; it is affected by elective fields. So what we are doing is transmitting energy using the magnetic field not the electric field.”

Intel Video

Examples of potential applications include airports, offices or other buildings that could be rigged to supply power to laptops, mobile telephones or other devices toted into them. The technology could also be built into plugged in computer components, such as monitors, to enable them to broadcast power to devices left on desks or carried into rooms, according to Smith.

Intel did not develop this idea, researchers at MIT demonstrated the technology in 2007 . In the 1890′s scientist and engineer Nikola Tesla envisioned  a world, in which all electricity is transferred wirelessly, but the idea was more or less abandoned and highly efficient copper cables became the basis for modern electricity infrastructure.

Ada Michigan based, Fulton Innovations‘s eCoupled  technology, uses inductive coupling and combining it with communications and control properties to deliver on Tesla’s vision of wireless electrical distribution. The technology supplies power and communication through an inductively coupled power circuit that dynamically seeks resonance, allowing the primary supply circuit to adapt its operation to match the needs of the eCoupled-enabled devices it recognizes.

Energizer is using eCoupled technology to make the Energizer Hard Case Professional eCoupled Swivel Light waterproof flashlight that never needs new batteries will go on sale this year. AT CES 2009, Tool manufacturer Bosch brought prototypes that can charge on the workbench or inside their carrying case when the case is placed on a charging surface, which could be in a workshop or even fitted inside a truck ensuring that cordless tools are always ready to go. Texas Instruments is also utilizing the eCoupled technology. Masoud Beheshti, director of battery charge solutions in TI’s battery management solutions group, added: “We look forward to supporting eCoupled-based solutions using our extensive portfolio of charge and power management solutions for all types of portable applications.”

Wireless electrical products are already on the market. Colorado based Wild Charge is licensing their wireless electrical charging systems. They have products available for sale on their website for Blackberry and Motorola phones.

Category: Electricity, Michigan, Networking |
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