Physicists Promise Wireless Power

StrongGlad writes "The tangle of cables and plugs needed to recharge today's electronic gadgets could soon be a thing of the past. Researchers at MIT have outlined a relatively simple system that could deliver power wirelessly to devices such as laptop computers or MP3 players. In a nutshell, their solution entails installing special 'non-radiative' antennae with identical resonant frequencies on both the power transmitter and the receiving device. Any energy not diverted into a gadget or appliance is simply reabsorbed. The system currently under development is designed to operate at distances of 3 to 5 meters, but the researchers claim that it could be adapted to factory-scale applications, or miniaturized for use in the 'microscopic world.'"

That would be really cool to see...

[brennanw]

... and the subsequent and inevitable lawsuits brought about by people convinced that the wireless power technology is giving them cancer would probably get a little tiresome.

Re:That would be really cool to see...

[Zigg]

You don't think there are any safety issues inherent here? I for one was surprised to see no discussion of it at all in the BBC article.

It well could be safe (or at least as safe as any other tech currently in use) but, man, I'd be looking at it very closely myself if I were responsible for bringing it to market.

Re:That would be really cool to see...

[BlackPignouf]

Please don't assume it's totally harmless and I won't assume it's totally harmful.
Sure, we're all gonna die, but some precautionary principle could ease the pain.

Re:That would be really cool to see...

[From+A+Far+Away+Land]

Yesterday the Corus radio network across Canada had a guest on with a study that's presumably scientific but I missed the details, and he found that cell phone radiation poses a 2 to 3 times risk of giving the user tumours. He said the problems with initial studies was the assumption that microwaves at so low an intensity as to not HEAT the subject, could not do damage. But in fact, even low intensity waves cause damage according to his study.

Re:That would be really cool to see...

[TobascoKid]

From the BBC Article:

5) Energy not transferred to laptop re-absorbed by source antenna. People/other objects not affected as not resonating at 6.4Mhz

That was at the bottom of the graphic. So it should be safe (however, seeing as the technology only exists as a computer model and not as reality, I would bet that if there are any safety issues they will only come to light after such a device is actually built)

Re:That would be really cool to see...

[Intron]

Fortunately there are no health issues with Lithium-ion batteries. I sleep with my laptop.

Re:That would be really cool to see...

[phritz]

Ummm ... I don't know if you're really unaware of the counter-argument here, but this has nothing to do with heating or not. The plain and simple fact is that DNA does not interact with light at microwave/radiowave frequencies. Therefore DNA can't get damaged by cell phone radiation. Therefore, it doesn't give you cancer. I'm still not aware of any non-crackpot scientific studies that show any evidence of tumors being caused by cell phones. If you can come up with a reference to this guy, I'd be happy to take a look, but he sure sounds like a crackpot to me.

Re:That would be really cool to see...

[gurps_npc]

This sounds like crap to me.

1) This is not a new area. There have been many studies on this, empirical studies. As in, they test people that use cellphones vs those that don't, so it would not matter if we understood the theory or not. His argument about initial studies is foolish.

2) With so many studies, random chance means a couple are going to falsely show a non-existant risk.

3) General studies on radiation (not restricted to cell phones show that low level radiation in fact will DECREASE your chance of cancer. Most scientists believe this happens by attacking 'weaker' DNA before they develop, but being low power enough not to affect strong DNA. They still do not recommend low radiation doses.

4)Wording like 2 or 3 times risk is often used to hide really bad, unimportant results. As in, they did the study on 5,000 people, among the cell phone users 5 people got cancer, among the non-users, 2 people got it. Without hearing either the exact numbers, or the Statistical Deviation, 2x or 3x risk are words that raise a red flag meaning "This study is bullcrap"

Re:That would be really cool to see...

[12357bd]

The plain and simple fact is that DNA does not interact with light at microwave/radiowave frequencies.

And your prouve is ...

Re:That would be really cool to see...

[j00r0m4nc3r]

People/other objects not affected as not resonating at 6.4Mhz

Speak for yourself, meatbag!

Re:That would be really cool to see...

[BytePusher]

Not sure if this guy should be modded up or not since he is so rude. However, he makes a good point concerning near field and far field. I worked on a project as an undergraduate to build a near field microscope. Basically you run light through a piece of optical fiber that has a special needle-with-a-little-hole-in-the-tip end on it. As the light wave propagated from the tip, it would start out small, several times smaller than the wavelength of the light. The result was that the light would interact with features much smaller than the wavelength of the light. By moving the tip across the sample in a grid like fashion and detecting the reflected or transmitted light, it is possible to build a raster image of the sample in extremely high detail. I wouldn't be surprised if the effect were not common in nature and perhaps our own skin could cause it to happen. If that is the case, then it's possible that cell-phone radiation could interact with DNA or other small organelles which are needed for cell reproduction.

Re:That would be really cool to see...

[smellsofbikes]

Ummm ... I don't know if you're really unaware of physics here, but if you stick a mouse in a microwave and turn the power to 11, the mouse sort of dies.

The absorption frequencies of DNA might not specifically match cellphone radiative frequencies, but high-power microwave radiation absolutely is dangerous to living tissue. Water absorbs very nicely at most microwave frequencies, and thermally-induced damage to water-containing tissues means the cell has to repair the damage. The thermal damage may be to the DNA, and it may be just to random proteins in the cell, but either way the cell has to start translating/transcribing, and when DNA is unravelled and depaired for transcription, there's a much greater chance of damage to the DNA happening from random processes, free radicals, stuff like that.

The question is: does sufficient damage happen to living tissue from radiation at the frequency and power density seen in cellphones, and I don't think anyone has positively answered that question yet.

Re:That would be really cool to see...

[neoform]

Forget Safety, what about efficiency?

Doesn't anyone else think that this method means a massive waste of electricity during the conversion, not to mention the wasted energy not even using used by the target device?

Re:That would be really cool to see...

[donotdespisethesnake]

The plain and simple fact is that DNA does not interact with light at microwave/radiowave frequencies. Therefore DNA can't get damaged by cell phone radiation.

However, the plain and a simple fact is that DNA gets copied a lot. An awful lot. If any of the many processes involved in copying, or even reading, the DNA were interfered with, then cancer might ensue.

Despite appearances, many biological processes are poorly understood, particularly the role of electric fields within living organisms. It is quite possible that external electro-magnetic fields have an adverse effect. While there is no obvious evidence of excess cancers caused by RF, the low level effects are pretty much unknown.

Re:That would be really cool to see...

[smellsofbikes]

The body's pretty good at thermoregulating, although there is evidence that chemically induced reduced body temperature increases lifespan. (note actually being cold doesn't do a bit of good: this requires making the hypothalamus mistakenly believe the body is cold.)

I'm guessing that reducing the body's rest metabolism reduces free radical damage (because free radicals are formed during metabolism.) People have observed that most animals die after about a billion heartbeats, give or take a few (except for humans, presumably as the result of better medical care.) It's likely that oxidative damage over time is responsible for much of aging, and oxidative damage is linear with metabolism (as is heart rate.)

So it's not as simple as just moving to Sweden, although living somewhere full of Swedish women is not too bad a way to spend the rest of your life.

Re:That would be really cool to see...

[LunaticTippy]

Do you live somewhere that has radio stations, tv broadcast, or cellular service? Whether or not you do, you'd better freak out. You're being penetrated by electromagnetic radiation all the time! No matter what you do! No matter where you are!

Re:That would be really cool to see...

[phritz]

Ummm ... I don't know if you're really unaware of physics here, but if you stick a mouse in a microwave and turn the power to 11, the mouse sort of dies.

Sure. But not of cancer, which is what we're talking about.

Now that I think about it, I guess I can see why heating MIGHT play a role. Assuming that your cell phone transmitter is 1 cm away from your skin, its irradiance a bit more than that of the sun. And it will definitely penetrate deeper than solar radiation, although much less will be absorbed. I just don't see how you can get biologically siginificant heating from that sort of effect.

Re:That would be really cool to see...

[BobPaul]

Wacom tablets aren't transfering WATTS of power to that little pen, and they're probably doing it with more traditional magnetic induction than electromagnetic radiation, linking the tip of the pen to the tablet. No energy is passing through your hand.

Electromagnetic radiation causes things, like human tissue, to heat. Try staring into a highgain wifi antenna (like your home-made pringles can) for a few hours and let me know if your vision doesn't get a little worse... Eyes don't dissipate heat very well (fewer vessels) and will probably get damaged. Yay for cataracts! That's at a few hundred-milliwatts.

Now, imagine powering your laptop, something around 100 Watts (1000x your wifi power) and stand so that your head is in a nice path between the laptop and the power transmitter. Let's just see how long before you get tissue damage.

Re:That would be really cool to see...

[Bandman]

and cancer is caused by DNA mutations?

Re:That would be really cool to see...

[styryx]

Cross-section of reactions... I'll leave you to work the rest out.

Re:That would be really cool to see...

[testadicazzo]

Well, it's still at the basic research stage, and you can bet a good deal of testing, both theoretical and practical, will take place before this ever reaches the market (oh, and I do research at a publicly funded institute which does risk assesment of radiative household products like cell phones, for what that's worth). But from what I read, and I'm not pretending to understand the physics just from reading the BBC article, the point is the power would not be radiating, unless it was absorbed by a co-resonating antenna.

Without more research, I can't say how well that works, but if it does what the article says it does, the power would not be radiating unless it was coupled with the receiver. This would mean that should you absorbe the radiation, there would be no more radiation. It might sound like voodoo physics, but not necessarily. Again, I'd have to look at something more technical before making comment. But the guys at MIT rarely publish bullshit.

Speaking of which, what moron tagged this 'vaporware'? It's basic research from MIT for chrissakes. That has nothing to do with vaporware.

Re:That would be really cool to see...

[smellsofbikes]

You probably can't. It's likely that the amount of heating is a fraction of a degree, and is completely overwhelmed by, say, standing in the hot sun.

But, notice the 'probably' and 'likely'. I don't think there's a correlation between cell phone use and cancer, based on what I've read, but if you'd asked me, 5 years ago, if I thought Vioxx was a great idea, I would've said yes. (I still would, in fact: just not for everyone.) We consistently make decisions based on the best science of the time, and consistently find out that we were wrong. That's science evolving, and I always get wary when people make definitive-sounding statements based on our current understanding.

With all that said, I seem to remember there were cases of cancer caused by people (stewardesses) working with early microwaves, which is why they put interlocks on them to keep them from being used while the door is open, but a quick search on Google finds nothing to support this memory.

Re:That would be really cool to see...

[Net_fiend]

Does this mean my skin is going to sloth off when I hit 50?

Re:That would be really cool to see...

[LunaticTippy]

Does this mean my skin is going to sloth off when I hit 50?

Maybe, I don't know what that means.
It will, however, slough off the exact instant you turn 50 if you don't stop eating wireless routers.

Re:That would be really cool to see...

[BobPaul]

But it WOULD be radiating it was was absorbed, right? So assuming that this "non-radiating" method of transferring radiant energy exists, energy would STILL have to radiate if you turned the laptop on. At which point, if you were in the path of radiation I have a feeling you would have to absorb some, also.

I'd have to agree with the vapor ware tag. Lots of schools do lots of research that never ends up in any products. MIT is not immune. Not only does the description sound like voodoo magic, but, ideally, antennas are always co-resonating. If your antenna doesn't resonate on the frequencies of transmission you're going to be wasting lots of effort. This doesn't mean that my co-resonate antennas (ie, both resonate at the same fundamental) don't radiate in either all or a few discrete directions, cause they do. But if I try to use an antenna designed for 20meters on the 2 meter band I probably won't have very good luck, and vice-versa (ie, if I used antennas resonate on different frequencies).

Unless their definition of "co-resonate" means something else entirely, in which case I still think it looks like they either teleport electrons to/from your laptop, or ensure that you don't sit between the laptop and the power source while using it. There's a reason nobody has tried to duplicate Tesla's wireless power....

Re:That would be really cool to see...

[drinkypoo]

There's a reason nobody has tried to duplicate Tesla's wireless power....

Really? What do you call this?

Perhaps this is just the first time anyone has understood it?

Re:That would be really cool to see...

[jericho4.0]

That's true, but ignores the inverse-square law.

Re:That would be really cool to see...

[soft_guy]

Accoding to the article it is not as wasteful as you are implying. It uses energy if there is a device capable of receiving the electricity. Otherwise, the energy isn't used.

Re:That would be really cool to see...

[bcattwoo]

Yeah! And I bet this whole skin cancer thing is just a fraud foisted upon us by those huge sunscreen conglomerates. I mean, if I am exposed to all this other electromagnetic radiation and not dead yet, then UV can't be that bad either, right?

Please note, I am not saying that I think this technology will cause cancer. I just hate it when "irrational exuberance" for a new technology causes any one who expresses the slightest bit of caution to be labeled as a Chicken Little or an ignoramus.

Now I'm off to buy a black-market X-ray machine so I can give myself a chest X-ray every morning just for kicks.

Re:That would be really cool to see...

[LunaticTippy]

There's plenty of close sources. Cellphones, PCs, the wireless adapter in a laptop, CRTs, TVs, etc. A typical car has huge amounts of EMF in the passenger compartment.

I remember the people who have superstitious paranoia about power lines yet ignore these more powerful fields within inches of their skin.

Re:That would be really cool to see...

[neoform]

So 100% of the magnetic energy gets used? What about the energy waste of converting electricity to magnetic waves, then in the device from magnetic waves to electricity?

I'm certain the loss of energy from powering up via wire is a LOT less than this, which is almost gimmicky since you have to place the device on a platter to power up.. how much harder is it to place the device in some form of universal dock/station for powering up?

Re:That would be really cool to see...

[gnu-sucks]

http://www.fcc.gov/Bureaus/Engineering_Technology/ Documents/bulletins/oet56/oet56e4.pdf (see page 17)

RF Radiation is absolutely dangerious. Radiation from <i>cell phones</i> isn't likely to be though, because of the extremely low power.

If you disagree, climb the antenna tower to a local radio station and hang out near the radiating element... (don't actually do this).

Re:That would be really cool to see...

[RsG]

The difference being, microwaves and radio waves are non-ionizing. Whereas UV is ionizing, as are X-rays and gamma rays. You can't equate the former with the latter, not if you want to be taken seriously.

Now, there is no known method by which non-ionizing radiation can cause cancer. Moreover, if there were some unknown means by which radio or microwaves could cause health problems of any kind, then you'd fully expect to see major health problems the world over. These are things to which we expose ourselves daily, and in quantity.

This technology doesn't use some scary new type of Star Trek radiation, the effects of which are unknown. EM radiation is well understood, and if it were harmful in it's non-ionizing forms, we'd be putting ourselves at risk to a greater degree already.

Now, I'd be willing to accept that there could be unknown risks associated with the technology. But understand - if there are such risks, they aren't caused by some gap in our understanding of the basic science involved.

For example, we know from a science and engineering standpoint what makes a faulty battery explode, but knowing how it happens, and making sure it doesn't happen, are two different things. There could indeed be problems with wireless power transmission that will only be apparent in the prototype stage (overheating comes to mind as an obvious one), but such are engineering problems, and they are born from human error or oversight, not scientific ignorance.

Re:That would be really cool to see...

[TheVelvetFlamebait]

Fortunately there are no health issues with Lithium-ion batteries. I sleep with my laptop.

That's what my laptop told me. Right before I became HIV positive.

Re:That would be really cool to see...

[Intron]

And how many times have you been warned to run anti-virus on your laptop?

Re:That would be really cool to see...

[kaladorn]

I think the parent has the right of it, at least in the broad sweep. Cell phone risk may have a usage period factor and may depend on which cellular technologies are in place.

I believe that the following are true:

1) You can get RF burns off of antennas used on police cruisers for police radios and data systems. Some of these are cell modems for protocols like CDPD and the like. Now, at peak power some of these can output quite a few times the power of a typical cellphone. But close enough (like in contact), at high output, and with the good old law of inverse squares in play, you can get a nasty RF burn from these antennae. This suggests that, under some circumstances, RF can be fairly dangerous.

2) Microwave techs working in the north and other places where we used microwave transmission, in the early days of the technology, used to align waveguides by inspection - by looking down the waveguide. In some cases, this was done with the system at a sizable portion of full power (not really powered down). Then they wondered why, over time, the one eye got worse and worse and they ended up having to use the other one. Then it too started getting worse. Hmmm. I think they step down or turn off the power now or align the waveguides by a different process. This suggests under some circumstances, microwave radiation can be fairly dangerous.

I have a friend who got testicular cancer. Now, I can't draw a direct A->B relationship with certainty, but in the four years preceding that, he spent 40+ hours a week with a police laptop with a built in modem (capable of outputting several watts in RF power) in his lap doing software development. I can't say that doing this led to his cancer. But I can't say it didn't nor that it didn't exacerbate any predisposition he may have had in this regard or hasten onset. I was glad enough to get out of that RF environment just on the chance that had somehow had a causal relationship.

So it seems the question isn't if RF or Microwaves are dangerous - with enough oomph behind them, I think we know they certainly have deleterious physical effects. The question is at the common power levels in commercial cell phones and other RF/microwave devices, is there sufficient power to cause problems? And if so, are there safe(r) usage limits we should be observing or particular designs or frequency bands we should be avoiding?

Re:That would be really cool to see...

[gnu-sucks]

You make a lot of good points. I've heard some similar stories too.

The thing with cell phones is the output power is *really* small. Even if you place your tongue directly on the output terminal, your absorption would be very small. I've also heard that the radiation emitted by humans is far greater (though at higher frequencies, obviously).

At any rate, I think we (FCC and OSHA included) all agree that some RF is very dangerous.

Re:That would be really cool to see...

[testadicazzo]

I'm a little afraid of dragging a pointles discussion on and on here, but I'll give it a shot.

Again, I dont know or understand how this process works. If the tech works like the article describes (which shouldn't be assumed since the mass media does a crap job of representing scientific research since they don't employ enough people with science backgrounds)... but anyway, if it works as described, there would be no radiation, or at least no significant radiation (remember we're talking about whether or not you would absorb radiation on the level being transferred for power, not radiation on the level of your cell phone). Through a process I don't understand they are relying on coupled radiator and transmitter. So as soon as you step in between the source and receiver, no more radiation.

Now, there may be a limit on how instantaneous that process is, governed by the speed of light (not necesarily though, I'd really have to know more about the physics involved), but that's anyway pretty irrelevant, since the speed of light is goddamn fast at human scales. If the process is instantaneous to about the order of the speed of light, which would be a likely assumption based on the claims of the article, you woudn't absorb squat. Maybe the same amout of radiation you get just by being alive for a couple of seconds. Depending on how the coupling works, and the wavelength of the radiation, might be effectively zero.

co-resonate was my word, not theirs, which leads me to believe you didn't bother reading the article. So you didn't even bother to read popularized BBC description of what's happening. From the article

"If you bring another resonant object with the same frequency close enough to these tails then it turns out that the energy can tunnel from one object to another," said Professor Soljacic. ... Any energy not diverted into a gadget or appliance is simply reabsorbed. ... "This would work in a room let's say but you could adapt it to work in a factory," he said. "You could also scale it down to the microscopic or nanoscopic world."

Without doing some real work I can't explain the process better, because I don't understand the process well enough. I work in a very closely related field, but I'd still have to spend a few hours reading to understand. So it's entirely forgiveable that you don't understand how it works or how it can be safe. I don't either. But I apparently have a lot better idea of how much I don't understand than you do. Not surprising, since understanding the limits of ones knowledge is vital to conducting research.

So briefly, no, the artile would give the impression that absorbtion, particularly by humans, wouldn't be a problem. How accurate that impression is would have to be tested of course, but labs and software exist for that kind of thing.

The vaporware tag is bogus because this is basic research and no one is claiming that it is more than that. Scientists always describe potential applications for their research subjects because this is 1) interesting and 2) necessary for getting funding. At the moment they are just running simulations to show the feasibility. It's nonsense to claim research is vaporware. Research increases our understanding of the universe, and often leads to useful products. In this case the chance that it leads to a useful product seems to me very high, although it might only be in the form of providing power to, for example, microchips...

Discovered???!??!??

Umm..

hello.. Tesla??

ever hear of that guy??

yea.. he proposed this well.. 100 years ago..

incidently.. the security word in the image.. photon.. how appropriate..

Re:Discovered???!??!??

[Ummite]

Exactly, Tesla did it 100 years ago, and over more than a km distance! But people don't know that guy. Tesla coil, radio transmission, AC electricity etc. The only thing new is the usage, little scale.

Re:Discovered???!??!??

[q-the-impaler]

My understanding was that it wasn't pursued because Tesla marketed it as "Free Power" and no company was interested in giving people free anything at that time. Oh, wait, nothing's changed.

Re:Discovered???!??!??

[q-the-impaler]

Pardon me... it was "Free Energy"
link

Re:Discovered???!??!??

[Mr+Pippin]

We might ALL know more of Tesla had JP Morgan not stopped his funding. Then again, Tesla had no problem with people getting power for free; which clearly caused issues for Morgan.

He was also chiefly responsible for the adoption of AC power. Edison was a very strong proponent of DC power distribution, and attacked any advocates of AC power distribution. AC won out for very practical reasons. (power conversion was mostly just a transformer)

Other than significant infrastructure cost, it's a pity that 3-phase power only enjoys success in commercial settings. It's much easier to make motors and other electricial appliance implementations with 3-phase power.

Yes, we owe a lot to Mr. Tesla.

Re:Discovered???!??!??

[delire]

True. Sadly his plans for wireless-electricity were completely thwarted, interestingly enough, by a refrigeration company that needed low prices for copper in order to enjoy low-cost production for their cooling systems. The reason copper was cheap, of course, was because wired electricity was in demand at the time.

More on that in here.

Next: An engineer working for Ford will be on the cover of Time magazine hailed as a saint for his invention, the Hydroden Engine. No one will find it conspicuous the article is flanked by a full page ad for BP featuring a woman drinking from a pool of crystal clear alpine water.

Re:Discovered???!??!??

[q-the-impaler]

I just can't help myself. Karma me bad. This is too interesting.
link

Re:Discovered???!??!??

[delire]

Make that "Hydrogen". The 'Hydroden Engine' is waiting for us next century.

Re:Discovered???!??!??

[hcob$]

Yeah, how else do we get to defend our Russian base in C&C??

Re:Discovered???!??!??

[squiggleslash]

But wait. We could get Google onto the case, and then they could provide advertising supported power, which is just like free power, only more annoying.

Tesla was clearly a hundred years too ahead of his time, and lacking the imagination of a dot-com tycoon...

Re:Discovered???!??!??

[Ontology42]

Tesla did utilize this, at Wardentclyfe he developed a huge model. His dreams of electrically powered war planes never did come to fruition, however he did make massive amounts of lightning. The only issue I can forsee is Grounding, how do you take an electriaclly isolated device (say a laptop) and make it safe by offering up an electrical sink hole when there are no wires? Possibly setup a secondary antenna at 20Khz or 16Khz? or whatever the earth resonates at again? Tesla saw the world as one big resonant chamber, unfortunately none of us agreed with him, as a side note he also developed a power supply for a car that required no external power. Mabye that's why his funding got pulled? then again if you blow up enough generators your funding will go bye bye too. "Let the future tell the truth, and evaluate each one according to his work and accomplishments. The present is theirs; the future, for which I have really worked, is mine." ~Tesla

Re:Discovered???!??!??

[ajs318]

It's much easier to make motors and other electricial appliance implementations with 3-phase power.

The 1950s called, they want their words back. Inverters aren't hard to build. Just turn your AC into DC; then have a three-stage phase-shift oscillator with each output driving a power amplifier. There's your 3-phase AC. You can even change the frequency (which gives you motor speed) and the phase ordering (which gives you direction of rotation) electronically.

DC brushless motors are everywhere nowadays. In case you've been living under a rock, a DC brushless motor has a permanent magnet for an armature, with alternating south and north poles. Cheap ones have four poles, high-quality ones for true hi-fi record turntables have 16 poles. The stator has coils forming electromagnets with an equal number of poles, and a Hall effect sensor. This senses whether the nearest magnet pole is south or north.

What will happen when this is powered up is that the magnetic forces will push the armature into a stable position where every north pole on the armature is next to a south pole on the stator, and vice versa. Reversing the current at this point will turn the armature another step. In a "conventional" DC motor, the armature has coils and the stator has permanent magnets; the rotation of the armature is used to reverse the current in the windings by bringing different contacts on the commutator into contact with the brushes. If the stator is not a permanent magnet but an electromagnet, and this is wired in series with the armature coil, then the motor will always spin in the same direction irrespective of which way the current is flowing, since all north poles will become south poles and vice versa, so a series-wound motor will work equally well on DC or AC (though it performs best at low frequencies. Some countries' railways, when first electrified, used series-wound motors; these had to be fed from a special, low-frequency supply of 16.7Hz. rather than the usual 50Hz.). In a brushless motor, each end of the stator coils has two transistors; one which will take it "high" and the other which will take it "low" (and a bit more circuitry to ensure that they never both come on at the same time). So the current can be reversed, or cut off (if both transistors at one or both ends of the coil are off) entirely electronically. The current reversal is controlled by the Hall effect sensor. Speed control is achieved through pulse-width modulation: a control signal of several kHz., with an adjustable duty cycle, is used to turn off all 4 transistors. The longer the transistors are "on", the faster the motor runs. Since the transistors have either next to no voltage across them (when "on") or next to no current through them (when "off"), they dissipate hardly any power.

As to the stuff about the battle of the currents: I did some research, and it was fascinating comparing it to the present-day battle of the sources. I almost expect Ballmer and co to start killing stray cats and dogs around Redmond with Open Source software just to prove how dangerous it is!

Re:Discovered???!??!??

[drinkypoo]

My understanding was that it wasn't pursued because Tesla marketed it as "Free Power" and no company was interested in giving people free anything at that time. Oh, wait, nothing's changed.

You know, I understand that it's too much trouble to RTFA, but perhaps you could read the fine summary. I quote:

The system currently under development is designed to operate at distances of 3 to 5 meters, but the researchers claim that it could be adapted to factory-scale applications, or miniaturized for use in the 'microscopic world.'"

What's changed is that instead of long-haul power transmission, it's envisioned for use in short-range scenarios, like powering the devices inside your house.

You almost had us convinced you were actually paying attention. Nice try!

Re:Discovered???!??!??

[Rei]

Tesla did a lot of great, original work. Sadly, much of his later notions were demonstrably 5 parts fancy to 1 part reality. Heck, even Mythbusters tackled one of Tesla's later proposals (the Earthquake Machine).

Tesla's method of wireless power falls into the latter. Even if there was a copper conspiracy, it would be a good thing, because it stopped money from being poured into an unworkable design. It was based on countless false claims and pseudoscience (random example: The atmosphere above 5km is so thin that it ceases to be an insulator and instead conducts electricity with almost no losses over long distances) -- most of them simply assumptions, without a hint of scientific backing, let alone a calculation on something so critical as efficiency.

Why Tesla is treated in a cultlike fashion ("He said it -- it must be true!") by many people around here is beyond me. He invented some great stuff. He also proposed a good bit of pseudoscience. The two are not mutually exclusive, people. In his later years, he was nearly broke, and was desperate for new contracts. He became OCD. He claimed to have completed a unified field theory, yet no notes on it were ever found. He claimed that spacetime wasn't curved, and thought that Einstein was just bedazzling people and keeping them from the truth. He made astounding claims about what his "death ray" could do, without ever doing the math (obviously -- it was basically an ion drive). He started talking about creating a "wall of light" by using a certain pattern to manipulate electromagnetic waves which would allow spacetime and matter to be tweaked at will. He even proposed a device to take pictures of peoples thoughts, which he thought appeared in the retina. He proposed an earthquake machine, and said he could shatter the world if he built a big enough resonator.

The list goes on.

Re:Discovered???!??!??

[q-the-impaler]

Look, the way things work round here is a lot of posts are responding not to the article, but to the parent post.

Exactly, Tesla did it 100 years ago, and over more than a km distance! But people don't know that guy. Tesla coil, radio transmission, AC electricity etc. The only thing new is the usage, little scale.

I was just adding information to the parent, which, in my opinion, is still relevant to the article.

Re:Discovered???!??!??

[tggreen]

I agree. They took Tesla's work without even giving him credit for it. Smells like plagiarism. Also, the toroidal coils in the illustration look a lot like subsequent curl-free vector potential patents (e.g. Gelinas).

Re:Discovered???!??!??

[dr_dank]

Inverters aren't hard to build. Just turn your AC into DC; then have a three-stage phase-shift oscillator with each output driving a power amplifier. There's your 3-phase AC.

I guess you could also reverse the polarity of the deflector dish to emit a low-level tachyon pulse. I'm sure Wil would be glad to elaborate.

Re:Discovered???!??!??

[Grishnakh]

DC brushless motors aren't really DC at all, they're AC. The only reason they're called "DC brushless" is because the motor amplifier is powered with DC, and converts this to waveforms to power the motor. There's two kinds of amplifiers, linear and PWM. Linear amplifiers create true sinusoidal waveforms for driving the motor, while PWM amps, as you might imagine, use PWM in place of sinusoidal waveforms.

Also, high-quality DC brushless motors/amps use encoders instead of hall-effect sensors because of their greater resolution. HE sensors are usually still used to determine absolute position.

But back to 3-phase power; yeah, it really doesn't make that much sense for non-industrial applications, because of the extra copper wire you have to run, and the extra complexity. The advent of power electronics has made it unnecessary. Even AC isn't that necessary any more at high power levels: in many places, high-voltage DC (HVDC) transmission lines have been installed instead of AC, because today's sophisticated power electronics are able to convert between AC and HVDC with very high efficiency.

Re:Discovered???!??!??

[doshell]

But back to 3-phase power; yeah, it really doesn't make that much sense for non-industrial applications, because of the extra copper wire you have to run, and the extra complexity.

The great advantage of a three-phase system is that you can convey more power with the same length of copper (as compared to a monophase system). That's because in a monophase system you must run two wires, one to convey power and the other for current return, the latter being just a physical requirement which brings no extra power transfer capacity to the transmission line. On the other hand, in a balanced three-phase system (i.e. one where the loads of the three phases are equal or nearly so), you can do away with the (fourth) neutral wire because current return for a particular phase is assured by the other two. So even though you run three wires (one for each phase), the three of them are actually transferring power, as opposed to a monophase system in which only one of the two conductors does so.

(It must be stressed that in order to do away with the neutral wire you must ensure the loads are balanced. This turns out to be quite doable in practice -- if the loads do not differ that much the neutral current is very small and the earth itself is able to close the circuit.)

So while it doesn't make much sense for non-industrial applications (you don't need three-phase power in your household, for instance), three-phase power makes total sense for long high voltage distribution lines because it is more economical.

Re:Discovered???!??!??

[novus+ordo]

This is the same guy that invented radio, radio control, foresaw the invention of television, radar. Not to mention AC power transmission. Basically as you are sipping your magically created coffee in front of your ghost machine, you fail to realize the extent to which his inventions shape your world. Not to say that all his ideas were fruitful, but one would be quite happy with himself if he achieved at the level this 'crazy nut' did.

And BTW he was nearly broke and was digging trenches for money because the PTO wouldn't recognize his patent on radio. Tragically, they awarded it back to Tesla(a few months after he died) after Marconi sued the US government for not paying royalties during WWI. Not to mention Marconi won the Nobel Prize for his invention. So much for starving inventors and their recognition.

Re:Discovered???!??!??

[petermgreen]

The great advantage of a three-phase system is that you can convey more power with the same length of copper (as compared to a monophase system).
thats neither true nor the main advantage of 3 phase (the main advantages of 3 phase are continuous power transfer and the ability to generate a rotating magnetic field both of which significantly increase the efficiancy of motors and generators).

That's because in a monophase system you must run two wires, one to convey power and the other for current return, the latter being just a physical requirement which brings no extra power transfer capacity to the transmission line.
the main costs with transmission lines come from the earth relative voltage (insulators, pylon heights etc) and the current (conductor material).

for the same earth relative voltage and volt drop a single phase system with its conductors at equal and opposite potentials relative to earth will use the same ammount of conductor material (afaict its generally aluminium in most transmission lines because aluminium can self support over longer distances and is cheaper) as the 3 phase system.

Re:Discovered???!??!??

[pipingguy]

From http://uh.edu/engines/epi179.htm:

"Three years later Tesla went to work for Edison in the United States. He tried to interest Edison in AC but was told that the idea was downright un-American. Tesla and Edison soon parted company. Tesla managed to get funding from the financier J.P. Morgan, and he issued a series of AC patents starting in 1887. He soon convinced George Westinghouse to put his money into the development of AC power systems.

Edison's response was downright maniacal. He launched an appalling campaign to discredit Westinghouse and Tesla. The idea was to show that AC was too dangerous to use. He invited reporters to demonstrations where stray dogs and cats were placed on metal sheets and electrocuted with 1000 volts of AC."

Re:Discovered???!??!??

[catmistake]

Close... it wasn't Tesla's choice, there was no way to regulate it. The industrialists/governments that considered his Tesla sphere plan (Tesla maintained that 4 giant tesla speres could power everything on the planet wirelessly) realized that it couldn't be regulated, and thus, not so much that it would have to be, yes, free, but that there was no way to charge people for it. So they went with Edison.

Now who's stupid

[joss]

I bet I'm not the only one here who has taken the piss out of someone for asking if they can get a wireless power supply for their laptop

Re:Now who's stupid

[Apocalypse111]

Stop paying your electric bills for a while, you'll get your powerless wires soon enough - and for free!

Re:Now who's stupid

[ThomsonsPier]

Surely that would be a battery?

Re:Now who's stupid

[tomstdenis]

Nah, they'll bill you to disconnect the power when you don't pay and then bill you to reconnect it.

They tried that in Mississauga when I moved out (and had canceled the account, or at least tried to). I told them that I wasn't moving back in, nor to the same city and that their vain threats wouldn't make me pay for what is essentially flipping a switch (we had disconnected the power at the breaker box so we weren't using any juice).

In short, companies are a scam and stealing from them is SELF DEFENSE!

Tom

Re:Now who's stupid

[qeloi]

True story:

Once, a woman wanted to work in a remote area of the office for some peace and quiet, so we configured her laptop for wi-fi, showed her how to use it, and sent her on her way.

She comes back a few hours later to say that it stopped working. By "it", I mean the laptop -- the battery had run out because she hadn't plugged it into the wall to recharge.

The reason: "I thought you guys told me I had wireless."

Re:Now who's stupid

[chaircrusher]

Reminds me of the old EE joke about the guy who says "to save connection count, we're going to multiplex power and ground ..."

Re:Now who's stupid

[revery]

I bet I'm not the only one here who has taken the piss out of someone for asking if they can get a wireless power supply for their laptop

Is there someone here who speaks - oh, the embarrassment - English, who can translate this for me? :\

Re:Now who's stupid

[soft_guy]

In short, companies are a scam and stealing from them is SELF DEFENSE!

Vandalizing their equipment is also self defense. So is killing their employees.

Re:Now who's stupid

[heinousjay]

It's simple: you insert a catheter into the urethra and drain the bladder, then run away with the urine.

Loss

[Nerdfest]

I can't see avoiding a large degree of power loss, and the last thing we need right now is something more inefficient than wll-warts.

It would also suck to have a random bdy part resonate in a similar frequency ...

Re:Loss

I can't see

that's why you're not a genius.

Re:Loss

[jimstapleton]

Actually, the ironic thing is, if this is using Tesla's principles, it's extremely efficient. Maybe not as much as copper wire, but still rather higher than would be expected.

Re:Loss

[Dunbal]

It would also suck to have a random bdy part resonate in a similar frequency ...

      I dunno, I guess it all depends on exactly WHICH body part we're talking about... this might revolutionize the online pr0n industry :)

Re:Loss

[Jeff+DeMaagd]

I can't see avoiding a large degree of power loss, and the last thing we need right now is something more inefficient than wll-warts.

I would expect that it's worst than that, the wireless power transmitter would be powered with a wall-wart.

Re:Loss

[kniLnamiJ-neB]

In local news, an impatient businessman checked his email while waiting on his child's orthodontic work. Seventeen people were injured.

Re:Loss

[UbuntuDupe]

Well, I was thinking along similar lines -- it wouldn't seem to offer much if at most, you can power a factory, since a factory can already be easily powered via cords. But then I thought about aircraft (I work in aerospace). Remember that with aircraft, conserving weight is so important, and you basically have "skeletons in the sky". Since you have to send electrical wiring to many parts of the aircraft, that requires you to put holes through the frames (left-right spanning structural members), which weakens them and forces you to make up for it with more material elsewhere in the frame. Allowing electricity to be sent to all parts of the aircraft without having to put such holes in, would seem to allow for better, lighter designs.

Re:Loss

[i+kan+reed]

While this was meant as a joke, many other forms of electronic entertainment(particularly video games) would have massive benefit from being able to stimulate nerves of various kinds in particular places in the body without physical contact.

Re:Loss

[jasen666]

Yep. And if I were to adopt this technology for my laptops, I'd probably scatter several of these things around the house for total coverage.
Roaming wireless power.

Re:Loss

[LindseyJ]

How would that be good? Not feeling like someone just shot me in the kneecaps is why I play videogames instead of joining the Army.

Re:Loss

[dosquatch]

WOOHOO! Time to crack out all of my old Leisure-Suit Larry games!

Re:Loss

[dosquatch]

you consider transformers to be "inefficient", even though they are the most efficient machines known

Simple voltage to voltage transformers are incredibly efficient. Power bricks (or "wall warts") are not, because they are not simply transformers. They are also doing half-wave rectification (at minimum 50% power loss), which results in pretty significant thermal losses. Typical DC power bricks are around 30% efficient.

There are high-efficiency power bricks that do full-wave rectification & can be 95% efficient or better, but what do you think actually comes with your product?

Re:Loss

[gt_mattex]

The parent has been modded funny but I'll wager this is outright insightful.

Change the frequency - change the function.

Keep the frequency - install tiny motors.

Re:Loss

[Dunbal]

Change the frequency - change the function.

Keep the frequency - install tiny motors.

      Let's build a prototype and apply for a patent :)

Re:Loss

[dextromulous]

Maybe I haven't been buying typical consumer items lately... but in the past two or three years I haven't purchased a single item that came with an "old fashioned" transformer based wall wart (ok, you got me, I've only bought 3 or 4 items that came with wall warts.) In fact, switch mode power supplies are not only lighter and smaller, but are actually cheap to make once the design is done.

Re:Loss

[stonecypher]

That's not what irony means.

Re:Loss

[Auger+Duval]

According to Tesla's own research he was able to transmit electricity cross county (US) with only a 3% loss. Conventional wire transmition has a 40% loss.

Re:Loss

[jimstapleton]

Oh, for some reason I remembered 85-90% efficiency. I just assumed wire would be at least 95%, not remember what wire actually was.

Then again, wire is based on distance and diameter... So you probably can't give it a global qualifier.

Re:Loss

[jimstapleton]

sorry, gonna trust Merram Webster more than some self-proclaimed arrogant prick...

http://www.m-w.com/cgi-bin/dictionary

Re:Loss

[stonecypher]

sorry, gonna trust Merram Webster

Explains the quality of the writing ...

The problem with dictionaries is that their sales are closely coupled to their size; therefore they have the financial incentive to bulk out their books with any half-assed definition they think they can get away with. Christ's sake, the OED lists company names as verbs now (go look up google, for example.) The Merr[i]am Webster is a well known bargain basement dictionary.

But hey, if you trust someone who's got a good reason to feed you anything under the sun instead of somoene who gives you clear etymological context, well, hell, more power to you. Or, less, as the case may be; who knows.

Re:Loss

[jimstapleton]

Words meanings are in how they are used. This is simply a logical progression of the meaning of the word.

People tried to stop such changes with laten.

Look how many people speak latin as a first language now.

100 years later...

Three Cheers for Nikola Tesla!

Re:100 years later...

[Rhinobird]

My what a good excuse for us geeks to go and get a beer!
Telsa is vindicated! Pass me a beer!
It's Wednesday! Pass me another beer!

Problems

[Solokron]

This would bring an entirely new scale of issues. People getting arrested for wireless power theft would be cute.

Re:Problems

[mlk]

It has a range of 5 metres. It is something you would install in your home, not deliver power to a house.

So someone could sit outside your house, and nick your bb connection and not worry about battery life.

Re:Problems

[maxwell+demon]

Well, AFAIK people already have been punished for wireless power theft. The power in that case came from a radio transmission tower.

Re:Problems

[myth24601]

This would bring an entirely new scale of issues. People getting arrested for wireless power theft would be cute.

Lets learn from expireance folks. This time we will require people to secure their wireless power from the get go. If you fail to secure it then the law should consider it an open invite for people to help themselves.

Re:Problems

Actually there is a way (future "prior art" alert :):

Precise tuning and sharp Q factors for resonant circuits are essential for this kind of systems to be useful.

You need a method and means of steering resonant frequency of both receiving and transmitting resonant circuits in a lockstep, synchronizing that offset through covert (encrypted) communication channel between transmitter and receiver, thus ensuring that unauthorized receivers cannot maintain efficiency needed for practical purposes (in fact, they would be "bridged over" by deployed well-tuned receivers, thus getting nothing but crams). Alternatively, pseudo random switched multichannel transmission may be used (frequency hopper).

Global Positioning System may have to be deployed, too, so that synchronization works both in time and space... you know, radio waves have finite velocity! However, for really large distances, propagation would be too unpredictable for that to work reliably, unless fixed frequency circuits are used.

This would be a state of the art high tech, married to Tesla wireless power system. As luck would have it, that would also be the no.1 target of future crackers.

Re:Problems

[Jesus_666]

Yes, we should demand that the electricity is WPA2 encrypted!

Re:Problems

[_argonauta]

that was interesting

what was it about?

Re:Problems

[MoogMan]

This whole class of issues, as well as the concept of "free energy", caused the government at the time to worry, and suspend Tesla's research. If they didn't, it is suggested that this news would have been a few hundred years earlier.

Re:Problems

[MythMoth]

There's a (probably urban myth) story about someone nicking power from the UK national grid by putting a huge coil in a shed directly under the power lines that hung over his garden...

Re:Problems

[Tmack]

There's a (probably urban myth) story about someone nicking power from the UK national grid by putting a huge coil in a shed directly under the power lines that hung over his garden...

Yeh, urban legend, the myth busters did that one a while ago, though its one of the "lost" episodes, and managed to pull only a few millivolts with 100lbs of wire from a set of transmission lines (See here, is the "Free Power" one). While their experiment was typical of their normal stuff (done quickly and not the most scientific), I doubt a normal individual could gain anything worthwhile from attempting it either. The coil would have to be enormous and very close to the lines themselves to get anything, and you would end up spending more building it that you would recover in electric bills for many years.

Tm

Re:Problems

[NoobCommander]

OMG...my GHz has been stoled!

laptops and MP3 players?

[jimstapleton]

Now I know you haven't seen the rats nest behind my desk, but 3 computers (only one a notebook), a PS2, monitor, KVM, Hub, printer, associated power strips, Nintendo DS plug and MP3 player plug... I assure you, I would not just use this for my laptop and MP3 player. I have way too many wires, and if I could remove a dozen or so of them, it'd help a lot. Add wireless networking to the mix, and wireless speakers, and it just might be manageable again... And yes, I know both of those already exist.

Re:laptops and MP3 players?

[dscx]

All that hardware, and a rats nest too? You sure keep a busy office...

Re:laptops and MP3 players?

[jimstapleton]

lol.

Rats are awsome critters, very friendly and social. I finally got them to stop gnawing on my feet. I even still have three toes left!

Re:laptops and MP3 players?

[Xepo]

I agree to an extent. However, it'd be extremely unlikely that this wireless power would be as efficient as a deluge of wires. Install this and watch your energy bill sky rocket...not to mention chance of a fire; I don't care if it is said to be completely safe.

Also, what kind of power would you get from one of these devices? I'd imagine it'd be pretty dirty, which isn't generally good for electronics, and I definitely wouldn't wanna run my computer on it.

Oh, another thing, wouldn't this cause interference with speakers and CRT monitors? Having my stereo next to my monitor already causes it to jitter and jive.

Cancer growth ?

[Skaber]

What kind of effects this could have of on the human body ?
Aren't we already exposed to too many radiations ?

Re:Cancer growth ?

[Apocalypse111]

We're exposed to plenty of radiation every day - you want a real scare? Point a geiger counter at some concrete sidewalk. The thing is, unless its ionizing radiation, you have nothing (or close to nothing) to worry about.

Re:Cancer growth ?

[Manchot]

Well, that's not entirely true. Obviously, if the power is large enough, non-ionizing radition can still cause damage thermally. The easiest example is if you were to stick a person into a microwave.

Re:Cancer growth ?

[Apocalypse111]

True, but if non-ionizing radiation does not cause significant heating, then it is generally presumed to be harmless. Check the article I linked in my previous post.

Re:Cancer growth ?

[l3v1]

You can bet you'll die earlier because of bad food ingredients, secondhand smoke and air pollution.
 

Great

[Frankie_CWRU]

now the people driving around in vans stealing my wireless don't even have to stop to recharge their laptops.

Re:Great

[shmlco]

I already have a power converter in my van, so you're stuck no matter what you do...

Re:Great

[ady1]

Why don't you enable that encryption key on you wireless power router, Oh wait.

Re:Great

[mbstone]

You know you've parked next to a wireless energy node if your Pringles can gets real hot, or if you discover you now have a can of Barbecue Flavor Pringles....

You have a point.

[brennanw]

... there might be health issues -- but I suspect there will be lawsuits whether there are health issues or not.

Re:You have a point.

[(Robo_Bro)]

People/other objects not affected as not resonating at 6.4Mhz

Headline: Shakira develops cancer of the hips.

wouldn't this

[Broken+scope]

be best suited for low power applications. Charging a cell phone or palm pilot for example. I mean, I don't see this working for my 500watt computer or my xbox 360. It might charge the controller for my 360, but it would really only get rid of maybe 2 cables behind my computer.

Re:wouldn't this

[Broken+scope]

OOHHHHH WITTY!!!

Not really Jackass. I was picking devices that have large potential power draws. My xbox and my PC for example. Frankly I have the feeling I go outside more than you do. Now, quit trying to be intelligent.

Re:wouldn't this

[toetagger1]

You also picked devices that already sit next to outlets in most cases, anyways. This is a lot more useful for monitoring devices, mobile devices (not just cell phones and such, but also mechanical things like romba, robots, and forklifts), and a whole new generation of new devices that weren't possible before. One thing that comes to mind is a coffee cup warmer (I know they exist with wires/batteries, but its not quite the same convenience/service that way).

Re:wouldn't this

[Broken+scope]

No, I was pointing out devices that take a lot of power. Yes, they happened to be near outlets, but the article talked about reducing the number of cables you used. Most of the stuff i have drains a good bit of power, and my concern was that "WOULDN'T THIS BE FOR THINGS WITH LOW POWER DRAIN." I essentially said it would be good for !gasp! mobile devices.

If you had actually read my post instead of trying to spring board a moronic and lame joke, you might have noticed what I said. I wasn't saying that it is useless, I'm saying because broadcast power, at least from what i have seen, isn't the most efficient way to move electricity. You tend to waste a good bit of the power to get it through the air. With a device that only pulls a small amount of of power you won't really notice the energy being wasted to get power to the device, however on a larger item, the power usage would be noticeable, and the power that is wasted would be undesirable. I'm also willing to bet that the coffee warmer takes several times more power than any palm pilot would.

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

They have the choke hold, the saw that they could keep wireless networking from becoming free in cities, saying it's unconstitutional or some BS like that, so now they realize "Hey, we can do that with power too!"

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

i dont get it ?

So wireless networking was bad for their agenda, and they tried to bar it, but they are touting wireless power ?

What about...

[BlackPignouf]

...sailboats & solar panels?

Re:What about...

[technoextreme]

...sailboats & solar panels?

What about them????? Or are we talking about a possible use for the technology. That would be an excellent idea. I know I was told about someone who created turbines that would work in the ocean. Only problem was how do you transmit the energy because you'd need wires a few feet wide.

Re:Tesla ALREADY did it 100 years ago ? so ?

[MindStalker]

This is using frequency resonation, Tesla's system didn't.

Think about it this way.

Lets use sound.. Lets say I make a crystal that vibrates at an exact sound frequency, I can make that frequency sound causing no harm to anyone but that crystal, which will vibrate, and potentially break with intense exposure to the sound. Now of course making a sound intense enough to to shatter the crystal and at the same time cause no harm to ones ears is difficult but its possible.

Now do this with electromagnetic waves. The real trick is figuring out how not to waste energy pumping it out in all directions. But its about as dangerous as me sitting here 1000 feet from a major radio broadcast station.....

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

people who wanted to make power a profitable market would have prevented wireless early on because they couldn't control it, and it might lead to government producing it as a tax-based service (much like many places have trash pickup "free" because it is payed for by taxes).

Very recently, cities tried to do wireless free, lots of ISPs complained, and stopped them.

At this point, if I were a power company, I drop the resistance to wireless power tech at this point - it's really the same concept as wireless networking - a service is being provided that is hard to control, and therefor would fall into the hands of the government, since others have "prooven" this unconstitutional, they can then keep the government from interfearing with our busines.

The wireless internet thing pretty much opened the gates for this. Do you think after 100 years time, this is anything resembling coincidence in how close these events have happened?

Am I missing the point here...

[pulgabm89]

or is this some sort of joke? If we consider how electricity is generated at power plants, this can be perfectly achieved in a very similar way. High school physics? :-) We all know that the restrictions on projects like this involve not only the scientific side of it, but, also, the concerns of people who don't fully understand it or, even, fear it. Does this remind any of you of how biotechnology has evolved and generated a considerable amount of uncertainty? Even cell phones are proved to cause cancer... Duh, can someone explain to me why they say it's not radioactive? This does not make any sense.

Re:Am I missing the point here...

[Apocalypse111]

Even cell phones are proved to cause cancer...

No, they're not. Cellular phones don't emit ionizing radiation, all their communications happen in the microwave band. This is not powerful enough to cause cell damage on its own. The thermal effects raise cell temperature a fraction of a degree on the surface of the head (an order of magnitude less than the change experienced by standing in sunlight), and the non-thermal effects show no rigorous evidence of genetic damage. Now, near a base station, the situation is a little different, but don't try to scare John Q. Citizen with unfounded FUD about cellular phones causing cancer.

More info here.

Re:Am I missing the point here...

[grommit]

Yes, you are missing the point. Just because something emits electromagnetic waves, doesn't mean that it automatically causes cancer.

Re:Am I missing the point here...

[crabpeople]

"all their communications happen in the microwave band."

I take it you dont have one of those new fangled "ovens" that use "microwaves" to "heat" the "food" up. Sure those are like 1000 watts, but the few watts from a cel is next to your brain. Ive had headaches caused by my celphone for sure. Do you think the romans knew that lead pipes make you crazy? They would have claimed that you were a pipe troll if you claimed that back in the day. Cel phones are like 10 years old and you think thats enough data to judge long term risks?

Re:Am I missing the point here...

[Apocalypse111]

Yes, its next to your brain, but using your own microwave oven analogy, have you ever stuck something in the microwave and taken it out only to discover that the outside is warm, but the inside is still cold? This is because microwaves are absorbed by water molecules on the surface, and thus do not penetrate deep enough to heat the inside. The same applies for cell phone radiation as well. And while cell phones are only 12 years old or so, we've been studying the effects of the types of electromagnetic waves they use for far longer than that.

Re:Am I missing the point here...

[pluggo]

You should read your own links. From the page you posted from Wikipedia:

The results, so far, have been controversial: the majority of epidemiological studies have not found any clear indication of short and medium term health hazards. On the other hand there is extensive literature (see "The Stewart Report" for a survey) on so-called non-thermal effects of weak microwave radiation on biological tissue in animal models or in-vitro, including affecting the growth of certain tumors, cell death, increased permeability of the blood-brain barrier, DNA damage and others, which suggest the possibility of adverse health effects in humans.

The article goes on to discuss damage to corneas, acoustic neuroma (a type of brain tumor), and other issues, both thermal and non.

By the way, I have an aunt who used one of the old analog cell phones constantly for a years. She's undergoing radiation and chemotherapy right now and has had a few different tumors removed over the past 10 years. The cancer started as a pea-sized tumor above her right ear, exactly where she held the phone. Hopefully for her daughter and husband she survives, but she is absolutely miserable now.

I use a corded headset whenever possible with my cell now.

IPT

As vaguely mentioned in the article ("A UK company called Splashpower has also designed wire-less recharging pads"), IPT or Inductive Power Transfer http://www.ferret.com.au/articles/f9/0c01c3f9.asp is already a lot more mature and far more on the way to reaching consumers than this technology which has yet to reach prototype stage so I fail to see the significance.

Re:IPT

[itsdapead]

...which has yet to reach prototype stage so I fail to see the significance.

Try "range of several metres" versus "sat right on top of the pad". If they've done computer simulations then making a prototype should be childs play c.f. getting the world's electronic gadget manufacturers to agree on a standard.

PS: Don't you just love the BBC - the person they approach for comment is the co-founder of a company making what would be (once the idea came to fruition) a competing product. He's actually quite reasonable, considering. In other news from the BBC - "Should Christmas be abolished? we ask the manager of Toys'R'Us and a turkey!"

Re:Suggested Tag

[ribuck]

Particularly as TFA clearly says "the team has not built and tested a system".

6.4Mhz - Oh Dear.

[MrSteveSD]

This thing is supposed to transmit at 6.4MHz. Searching for 6.4Mhz on Google brings back many many links about devices for which that frequency is important. And we wouldn't just be talking about a little bit of radio interference. This would be high power interference.

Re:6.4Mhz - Oh Dear.

[profplump]

If only we could build a cable where the signal was transmitted on a wire totally encased by an EM shield -- with the interior signal wire running down the central axis of the exterior shield. That would be handy for stopping stray EM on the cable network.

Re:6.4Mhz - Oh Dear.

[deadweight]

There are quite a few marine and aircraft frequences pretty close to 6.4 MHz. I think this might be a *real* bad idea.

Re:6.4Mhz - Oh Dear.

[atrizzah]

Did you not read the article? The system does not radiate. It's a near field coupling device, like a transformer. It won't interfere with anything that isn't extremely close to it, and that isn't designed to resonate at 6.4MHz

Re:6.4Mhz - Oh Dear.

[Detritus]

"Is not an intentional radiator" doesn't mean that it doesn't radiate. Unless shielded, transformers produce EM radiation. If you read the actual paper, it discusses energy loss via EM radiation. It does not claim that it is eliminated, only reduced to an acceptable level as regards the efficiency of the system.

Re:6.4Mhz - Oh Dear.

[Bimo_Dude]

If you have a boat or an aircraft within 3 - 5 meters of your power transmitting basestation, you have a bit more to worry about than just EMI ;)

Re:6.4Mhz - Oh Dear.

[deadweight]

FYI, the radio signals could possibly end up on the other side of the world. People talk over 1,000s of miles with very low power all the time. Thousands or millions of these things would essentially ruin 6.4 MHz +/- for any kind of communication.

Re:6.4Mhz - Oh Dear.

[MrSteveSD]

From the BBC article

[b]The concept exploits century-old physics and could work over distances of many metres, the researchers said.[/b]

Many Meters = Interference

Re:6.4Mhz - Oh Dear.

[tcgroat]

It really needs to be operating on an ISM frequency. Otherwise, the power level would have to be extremely low to comply with the interference regulations.

Even ignoring the interference cap, coupling useful amounts of power at several meters separation means the Q of the resonators would have to be extremely high. With the EPA efficiency standards for rechargers, this seems to be a poor time to introduce any product that wastes even a little power.

JP Morgan to Tesla

[hedleyroos]

"Where can I put the meter?"

And so it failed. Apparently.

i'll be holding my breath

[sir+8ed]

I am still waiting on my flying car.

Re:Sonic Care

[pulgabm89]

Damn, I have one of those... hehe... it's so awesome ^^ It's always a cool thing to brush your teeth with something different.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

well, but what about the possibilities ? is it impossible that there would be stuff that might be affected by related wavelengths in our body, or our environment, or critical apps, like flight instruments medical instruments etc ?

Re:Tesla ALREADY did it 100 years ago ? so ?

[mlk]

I only know of Tesla due to the mention in the article, and a minute or so on Wiki.

This is quite different application of the same tech. It has a range of 5 metres, it would be installed into your home. Not used to delivery power to your home (like the Wardenclyffe Tower).

while you guys are at it...

[circletimessquare]

tesla promised not only wireless power, but also death ray. could you make sure you deliver that to?

thanks!

signed,

technology historians for the realization of past promises

ps: don't think we've forgotten about those rocket cars mr. popular science!

Re:while you guys are at it...

[petro_K]

please...peace ray. It's a peace ray.

Re:while you guys are at it...

[spun]

signed,

technology historians for the realization of past promises


You guys have your work cut out for you. As well as beamed power and flying cars, I also want my space resort, moon, mars and undersea colonies, strong AI, and Duke Nukem Forever. Chop chop!

Delivering power has never been the problem...

[bcarl314]

The ability to deliver wireless electricity has been known decades. The big problem has been how to determine who uses what. I believe Tesla proposed a huge power generator that could be used to power all the electricity needs of a city wirelessly. His idea was, of course, shot down because no one knew who to charge for what.

Re:Delivering power has never been the problem...

[gad_zuki!]

More like it was (and remains) highly inefficient and would have used a large part of the spectrum. You could have wireless power to your home but you can kiss the cell phone, tv, radio, etc goodbye.

A great deal of Tesla's achievements are apocryphal. There is no real proof about claims of wireless power to motors miles away and other things people attribute to him. In reality he was a clever guy but not this victim of forward thinking/backwards government as his myth protrays him as.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

so you say in 100 years time or shorter noone will resist wireless internet and power ? is that it ?

Dateline 2006

[lordmoose]

This amazing new "wire-less" technology is the all the rage to-day.

Theoretically speaking

[Dasher42]

What would happen if these were used on highways to power electric cars? Batteries still only return a tenth of the energy put into charging them, so directly conveying power to automobiles would be interesting indeed.

Re:Theoretically speaking

[shmlco]

I suspect we'd be bankrupt, as tearing up every street, road, and highway in the country to bury the transmitters is going to be a fairly expensive proposition...

Re:Theoretically speaking

[Yetihehe]

But what with doppler effect? And don't say it's dismissible. 4g phones have already such data transfer speeds, that projectants must account for moving. When you have to tune your receiving and sending antenna, moving to or from sending antenna will cause detuning.

Re:Theoretically speaking

[Macka]

Or perhaps trains or trams. Do away with the need to have some part of the train/tram in connection with a live electrical connector and there might be speed, maintenance and possibly noise benefits to future designs. It's certainly an interesting area for research.

Re:Theoretically speaking

[kestasjk]

The electromagnetic radiation being used isn't directed, so it would dissipate very quickly. I expect this would waste a lot of energy over short distances for handheld electronics, but it would be totally infeasible for cars.

Re:Theoretically speaking

[Hank+the+Lion]

Batteries still only return a tenth of the energy put into charging them
Where do you get that number from?
I think it is closer to 90%, i.e. only one tenth is lost.
What's the efficiency of this new technology?
I wouldn't be surprised if it were lower than for current rechargeable batteries.

Re:Theoretically speaking

[david.given]

I remember hearing about a project a while ago for a shopping mall that was considering using an induction antenna system like this for powering the little electric buggies that moved goods around. The plan was eventually squashed when someone did some back-of-the-envelope calculations and realised that the wire mesh of a shopping trolley was at exactly the right spacing to pick up the power signals. The result would be that if you pushed a trolley across the tracks, it would melt.

Unless you can solve the problem of accidentally transferring large quantities of power to anything in the vicinity, I suspect that this idea will remain still-born...

Re:Theoretically speaking

[Creepy+Crawler]

Not hard. Just have a known carrier with a specific frequency and auto-tune.

I do it all the time with LEOs on K/A, but they dont have a carrier to zero-beat with. You have to do it manually, usually when there's a QSO going on.

Re:Theoretically speaking

[Mattintosh]

Nah. Just put up a wire grid above the roadway and give each car a pole with some wires sticking out of the top of it. It's already like bumper cars on the interstate as it is, we might as well go all the way.

Re:Theoretically speaking

[ShadowsHawk]

You must not live in Illinois. As every Chicago resident knows; we have two seasons, winter and construction.

Re:Theoretically speaking

[roman_mir]

Ok, but wouldn't it just make more sense to have some kind of a trolley car system instead? So your electric car would have batteries but it could still recharge on the highways and many other roads by connecting to one of the above power lines with trolleys. The mechanism to switch to and from power line above the car should be automatic of-course.

Re:Theoretically speaking

[tcgroat]

Batteries are far more than 10% efficient! Charge efficiency (Coulombs discharge / Coulombs recharge) is 80%-90%, and voltage efficiency (Volts discharge / Volts recharge) is about 90%. In round numbers, you get 70%-80% efficiency from the battery. Unless you leave it lying around so long that it self-discharges, which is unlikely for an EV.

Re:Theoretically speaking

[GWBasic]

Batteries LOOSE about 10% of their power. Except for their size / weight, they're once of the most efficient energy storage mediums.

Re:Suggested Tag

[mlk]

But flying cars have been built.

Yey.. tesla did this, many many years ago

[MrJerryNormandinSir]

Nothin new hear really. remember Tesla's dream? Free wireless power. The Huge facility at colorado springs did just that.
The only wireless energy source transmission I've seen so far is with RFID tags. have you ever taken one apart? Chek out the
antennea.. much like the tesla antennea.

How come the radio station threatened me with jail

[bxbaser]

They were beaming me wireless power , other people just didnt have enough antenea's all they could get was music.

So, i install such a thing at my home.

[TransEurope]

And then i'm happy because all the cables of computers, external drives, routers, switches, printer and so on are gone. But how the hell do i secure the wireless "power line"? Any close neighbour could steal my wireless energy. It's the same problem with wireless lan, but the difference is that i cannot encrpyt "energy waves", everybody could join that energy network.

Re:So, i install such a thing at my home.

[CSLarsen]

Just a hypothetical thought: What about using cryptographically based frequency hopping? Then you could only power the clients that have been approved by the wireless power source.

Re:So, i install such a thing at my home.

[Creepy+Crawler]

How do you propose to "encrypt" photons?

You can encrypt DATA, not matter/energy.

Re:So, i install such a thing at my home.

[CSLarsen]

I think you missed the point. You use frequency hopping. The sequence and timings of each frequency change is only known by the power source and the tapping device. This sequence can be established cryptographically, so that it cannot be guessed.

Re:So, i install such a thing at my home.

[Creepy+Crawler]

Antennas are not locked to one specific frequency, but a range of them, with an increasing SWR curve for deviating off the center. For example, I make what is commonly known as a 2 Meter antenna (2 meter is distance between waves, which equates to about 144 MHz). The antenna creator would minimize SWR for the "center" which would be 146 MHZ. The center is what our license allows (144.00 MHz to 147.99 MHz @ max 1500W).

Now, for selectivity, I have to manually tune my receiving circuit to pick up a voice or chirp. Different Encoding strategies require different bandwidths (I use a 300 Hz filter for morse code (CW), and 4 KHz for voice, and a 6 MHz filter for Amateur TV). This is for selecting a specific transmission. Instead, if Im aiming for receiving RF energy, I'd just create a nice wide antenna and pick it all up. The signals would get all jumbled up, but I dont care about data, only power input.

Of course, it's mostly a moot point because of the inverse square law and all. Unless you're using refelecters, you wont have much of anything to pick up.

As an aside, SWR is Standing Wave Ratio, which represents the loss of power by reflection of RF over the wires. This power goes back into your transmitter. Too high numbers on SWR can, and WILL fry your transmitter. I've operated on a 2.0 SWR, but very hesitantly. I have a 1.2 SWR with a antenna matching network (can match impedance between 2 lines, with no more than a 10 SWR match). SWR can also eat up receiving RF (by turning it into heat on the line). If you have any sort of bad componetry, you're screwing yourself.

April Fools!

[RobertNotBob]

This was one of Think Geek's April Folls jokes earlier this year.

.

I guess truth CAN be stranger than fiction.

.

Re:April Fools!

[RobertNotBob]

Um... yeah, I guess.

I stand corrected.

Re:April Fools!

[Ant+P.]

Last time I looked a few weeks ago, it was still there. Can't check now, since the site's taking about 10 minutes to load each page.

Re:April Fools!

[Amalas]

I believe this is the link you are looking for: Wireless Extension Cords

Isn't this what RFID does ....

[un1xl0ser]

.. or maybe they are just very small batteries ...

Re:Isn't this what RFID does ....

[Aardvark99]

Passive RFID tags do get their power via the RF field of the RFID reader they are in range of. Sounds similar at least.

Standards needed

[hcdejong]

If this works, we need to define a standard resonance frequency NOW. I, for one, don't need a repeat of the wall wart debacle where every device needs its own charger.

Re:Tesla ALREADY did it 100 years ago ? so ?

[Metasquares]

These are things that should (but probably won't) be studied before deploying these systems.

What's the frequency, Kenneth?

[saintory]

I wonder why they chose the 6.4 MHz frequency. Looking through Google for 6.4 MHz, the third hit brings me to Quartz Oscillators that operate on that frequency. Looking at Quartz Crystal in Wikipedia I can see talk about how to calculate the Q value as:

1.6E7/f, where f is the frequency.

6.4MHz fits nicely into this, yielding a Q of 2.5. Are there any engineers out there that can further explain why they might have used this frequency (e.g., plentitude of parts)?

Re:What's the frequency, Kenneth?

[simonv]

http://www.fcc.gov/oet/spectrum/table/fcctable.pdf 6.4Ghz is in the frequency for satellites, maybe they figure 5 feet for the power is short enough.

Re:What's the frequency, Kenneth?

[mako1138]

6.4MHz fits nicely into this, yielding a Q of 2.5.

Actually, a Q of 2.5 is atrociously bad -- see the sentence right before the 1.6e7/f one, which says "A typical Q for a quartz oscillator ranges from 1e4 to 1e6." (I have no idea where the equation comes from, or if it's valid at all.) In frequency space, your oscillator output power looks like a hump centered on the oscillator frequency, and the width of the hump at half-power is f/Q. So, a Q=2.5 crystal at 6.4MHz is going to have significant output from ~5.1 to ~7.7 MHz, not exactly a stable frequency reference.

Q is not a typical metric for applications. Manufacturers generally specify frequency tolerance, stability, and aging.

As for 6.4MHz, it's not a particularly special frequency. You can get crystals in all sorts of frequencies, and it's not hard for the factory to make you a custom one. The BBC article doesn't give many details, but I expect it's a convenient frequency in terms of engineering. We'll have to wait for the talk to get the whole story.

nothing new

[cucucu]

Isn't light "wireless power"? The earth is being wireless powered by the Sun thousands of years now. Every kind of energy we use is ultimately Solar energy. Except for nuclear energy - but that doesn't count if it's for civilian purposes.

Re:nothing new

[Deflatamouse!]

> The earth is being wireless powered by the Sun thousands of years now.

Billions of years!

alexchiu

[Hao+Wu]

This was concepted by powerman Alex Chiu. You are right. It is not new idea of super energy platform.

Re:alexchiu

[sumday]

Whoever modded this insightful obviously wears magnetic immortality rings.

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

huh?

I am saying this is why they aren't resisting it now, they companies providing the services know they can keep control of it.

WOAH!!

[fury88]

Imagine the Xbox 360 on wireless power supply... scary!

I, For One...

[eno2001]

...welcome our new tumor causing overlords!

Microscopic gods....

[Himring]

This sounds so much like one of the first Sci Fi books I ever read in high school called, "Microscopic gods" (or was it "Microcosmic gods"?) -- I think it was. A scientist creates microscopic evolution. He keeps experimenting, forcing "stresses" on the creatures to make them evolve. They eventually become sentient, intelligent, creative. To fund his research he invents wireless power. A congressman hooks up with him and uses subterfuge to wrist the new power invention from him. Meanwhile, his microscopic gods keep evolving until they are more advanced than the scientist himself. They refer to him as their "father" or "god" or something. The congressman sends in the military, using the wireless power, to take over the scientist's lab and even washington I think. The scientist sends a request to his creatures to invent an invulnerable forcefield to withstand the attack. They do so, but make it only big enough to cover their little area. He cannot contact them. They send him a -- for the first time ever -- message humbly asking if the parameters were right since they suspected he could not reach them. They also provide the means for him to communicate back. He tells them to increase the size to cover his island and they do. All the planes using the wireless power to take over the country crash, and senator is fouled and the scientist lives happily ever after in his grey, dome, shelled, island with his little gods. The story ends stating the military continues to use the dome for target practice....

Re:Microscopic gods....

[hoggoth]

Theodore Sturgeon's "Microcosmic Gods" was the story that got me interested in artificial life 20 years ago!

Re:Microscopic gods....

[Lisandro]

Theodore Sturgeon, "Microcosmic Gods". I loved that story when i was a kid.

Re:Microscopic gods....

[wikinerd]

I remember this story, I read it when I was a child.

Re:Microscopic gods....

[Valdrax]

As others have mentioned the author and title of the story you're looking for, I'd just like to chip in that, in a similar vein, "Blood Music" by Greg Bear is also quite good. It's about a guy who invents intelligent white blood cells and injects himself with them.

Well, ain't that something?

[tehtest]

I for one embrace our wirelessly powered robot overlords.

We now have DeKalb receptors!

[Chemisor]

And it won't be long before we get a Waldo who can show us all how to get power for free! My Evil Plans will no longer require a gigawatt power source! Bwahaha!

another article

[brunascle]

MIT Technology Review has another article</plug>

How will this affect pacemakers?

[ABoerma]

My father has a pacemaker. Those things are _very_ sensitive to electromagnetic radiation. I don't want to give him another heart attack each time I charge my cell phone.

You Call this News?

[jlf278]

I buy a couple of these every year: http://www.thinkgeek.com/stuff/41/wec.shtml

I think the only reason most people don't have one is because they're only on sale April 1st of each year. Now isn't that odd? Hmm, maybe I should submit that to /.

Air/people transformer

[bcmbyte]

Sounds like a large "air/people core" transformer to me. I am not sure if I like the idea of RF energy in my work/home. One the plus side I bet it will drive away any bugs.

Re:Air/people transformer

[TobascoKid]

I am not sure if I like the idea of RF energy in my work/home

So you don't like the idea of artificial lights, radio/tv, wifi, etc?

Heinlein said this was a bad idea...

[kulakovich]

Not sure where the old man would stand on it now that we have wireless everything else...

I'm off to check which story it was.

kulakovich

hmm

[Anon-Admin]

I worked with a guy 4 years ago that was developing this. I have seen it work and it is cool. One of his backers asked me what I though it could be used for and I began listing all kinds of stuff at a n office. No need for anything to plug into the wall. It really was cool. Although with his, and the frequency that he was using, you just needed to set your cell phone within 2 feet of the transmitter. Come back a couple of hours later and the phone was charged.

In all honesty this really is old news. Nicola Tesla had this stuff working in the early 1900's

Aircraft / Faraday Cage

[cbelt3]

Well, yes, sure, but how can one get through the metal bulkheads with an electromagnetic signal ? Unless your aircraft is made from some type of material that will allow e and b fields to buzz right through it (and if so, perhaps we can sell that material to various Stealth programs, no ?), you're going to have to cut holes for waveguides instead of cable ways.

The major savings in transmitted power in an aerospace environment would be in weight of wiring. If your transmitter / receiver assembly and waveguide pipes weigh less than the equivalent direct copper power busses, then it's all worth while.

Of course, the most likely savings these days has to do with signal / information cables. Replacing complex multi-wire signal cables with digital network / fiber optic busses is your best chance to cut weight.

Other interesting features of a waveform power transmission solution would need to include power interruption devices, load sensing devices, and the like. If this takes off, I would find some millimeter wave radar companies that want to get in on the 'ground' floor.

Re:Aircraft / Faraday Cage

[UbuntuDupe]

Well, yes, sure, but how can one get through the metal bulkheads with an electromagnetic signal ? Unless your aircraft is made from some type of material that will allow e and b fields to buzz right through it (and if so, perhaps we can sell that material to various Stealth programs, no ?), you're going to have to cut holes for waveguides instead of cable ways.

Still though, only needing one small relay through a bulkhead or frame is still a lot better than having to bore holes large enough to pass all wires through.

Feasability question...

[EinZweiDrei]

Alright, here's a simple question of feasibility, assuming this technology works:

"How much more power would have to be supplied to the copper antenna than would be received by the device?"

Which is to say, the resonance would be emanating in all directions, and a great part of it would be missing the receptive object entirely. How much resonance would need to be lost for the cell phone, mp3 player or whatever to receive the needed amount of charge? With something like a laser as long-distance power, efficiency would be near total, but with something like this, it seems like a lot of energy would be spent pumping this copper coil into sending resonant waves into peoples' living room walls, out their windows, into the inseam of their pants, etc.

I'd be curious to hear anyone bandy back an educated response [I know -- this is Slashdot, but I have faith] here.

caps..

[way2trivial]

put caps in the car sufficient to let them go from 'section' to 'section' with the amount of juice provided from the last section enough to get to the next one..

further, who said it has to be under the roads? but it in the light fixtures overhead,-- hell- put a retransmitter on the front & rear of every car and allow them to pass the juice along in a chain gang..

the thing about the concept that would scare me is you've saved so much in battery weight, & the cars are much more efficient, they must weigh next to nothing and a hell of a lot more likely to flip.. a passing semi would be enough to do it...

Re:caps..

[shmlco]

"but it [sic] in the light fixtures overhead"

Putting it in the road means that the power receiver could be as close as six inches away from the transmitter, maximizing power transfer and minimizing loses.

Nothing to see here...

[Fysiks+Wurks]

Please ignore this fabricated futurist speculation. Cables with minimal joule losses are the way to go!


This message brought to you by the Cable & Interconnect Manufactures Association.

Assistant Professor?

[Lord+Duran]

Who's he assisting?

Dupe!

[AusIV]

It's been over a year, but this is definitely a dupe: Splashpower Boasts Wireless Power

Could this be used...

[Fuzzball963]

By just plougging it into a wall outlet or would it have to be a specialized type of power circuit? If it can be plugged in and still provide that same amount of power it'd be a really cool way of upgrading normal outlets. Does anyone have a good site for explaining the Tesla coil besides Wikipedia? Much as I love it I just can't bring myself to trust it for engineering type things, and as I have a interest in it and am potentially majoring in electrical engineering I need a site with good information :).

Re: Tesla

[RareButSeriousSideEf]

Didn't he do that "Little Suzie" song?

Microwave

[uwnav]

I'm quote probably not right about this. But isn't this the same basis that a common microwave works on? sending out microwave radiation at a certain frequency at which water,fat etc absorb energy?

Re:Microwave

[ohearn]

Not quite. Microwaves cause dipolar molecules (like water) to basically flip back and forth with the peaks and troughs of the wave. The motion of the molecules causes friction on the other molecules around them and causes heat that way.

Re:Microwave

[uwnav]

ahh good info. Thanks

This always confuses me...

[freeze128]

The research is done at MIT. MIT is in the United States.

TFA is from the BBC in the UK.

How is it that overseas news agencies are breaking stories like this, and our local ones are not?

Re:This always confuses me...

[Detritus]

Domestic news agencies are more interested in who Britney Spears is living with this week. They view science as boring and hard to explain to a general audience. Even Scientific American has been dumbed down in an effort to appeal to a wider audience.

I'm using wireless power right now ...

[bentrop]

It's simple electromagnetic induction and has an incredibly limited range but it's working great: http://www.a4tech.com/en/product2.asp?CID=90&SCID= 92&MNO=NB-99

But what's the bandwidth?

[hcdejong]

If the signal has a narrow bandwidth, you might be able to operate near 6.4 MHz without interfering with other devices. Also, I suspect the frequency isn't that critical.

What this means...

[mapdock]

rail guns can't be far away!

Re:Tesla ALREADY did it 100 years ago ? so ?

[Intron]

trash pickup has to be tax-based, because otherwise people would find some other way to dump: on public land, in McDonalds trash bins, whatever.

If you make a consumption-based service "free", then you get uncontrolled overuse. People would heat their homes with electricity rather than have to pay for gas or oil, even though it's less efficient.

Anyway, regardless of whether wireless power is regulated or not, it's coming from the same place that wired power is coming from, so there's no reason for any special interests to be upset.

Tesla and radios. . .

[Fantastic+Lad]

I only know of Tesla due to the mention in the article, and a minute or so on Wiki.

You're not alone. It's amazing how the man who is largely responsible for the use of AC power in our society, (Edison tried to champion DC because AC with all it's complex maths was too difficult to understand!), and the radio, (Marconi basically just used Tesla's insights to deliver a viable product for the war effort in WWI), goes unheralded.

There's a reason for this. Tesla worked in such a way which would have exposed the world to ways of thinking about reality which lead to freedom. --Despite his push for exactly the kind of power distribution system described in this article, such thinking would have eventually led to an understanding that all matter, (including elements of the human nervous system), resonates at specific frequencies. This would have led people to question things like cell phones a little more carefully before accepting them.

I've looked and looked, but I cannot find the reference I originally read many years ago now. . . His discovery of the radio was sparked by an incident where he was instantly aware that his mother who was in another country at the time, had just experienced a severe trauma. This experience is what caused him to think along the lines of sympathetic resonance. The science book people of today don't like guys who talk about such things. Again, it's about withholding freeing knowledge from the populace so that they are more easily controlled.

-FL

Re:Tesla and radios. . .

[unity100]

well said ! very well put !

Re:Tesla and radios. . .

[Dan+East]

I know this is purely anecdotal, but the experience with Tesla's mother reminds me of something that happened with my Grandfather. Before I was born he was out riding in the country on his motorcycle. Suddenly he knew something was wrong with his mother. In fact, if I remember correctly, he distinctly heard the word "mother". So he headed back to the house and had his wife call long distance (he lived around 300 miles away from his mother at the time) to check on her. A relative answered at the residence and said everything was fine, but that his mother wasn't there at the moment. Just a few minutes later the relative called back and said that his mother had died (it was an acute, non-trauma death). Now, I know my grandfather very well, and I believe what he said and experienced 100%. After they found out more details, specifically when it was she died, they determined that her death would have coincided exactly with whatever it was he experienced.

So personally, I believe that Tesla very well could have experienced the same thing. Whether or not it was related to sympathetic resonance of RF emissions or something more supernatural is of course unknown.

Dan East

Re:Tesla and radios. . .

[Tim+C]

The science book people of today don't like guys who talk about such things.

Maybe that's true in the US, but here in the UK Tesla and his work was certainly mentioned in my courses on Physics.

Re:Tesla and radios. . .

[djcondor]

(Marconi basically just used Tesla's insights to deliver a viable product for the war effort in WWI)

I hear he played the mamba, too!

Re:Tesla and radios. . .

[dmccarty]

Was going to mod this insightful until your last sentence. I think I'll jump in here instead...

The problem I have with statements like "withholding freeing knowledge from the populace so that they are more easily controlled" is that they always come up when talking about Tesla. It's like the guy is the ultimate hero of every conspiracy theorist. Whether or not that statement is true isn't my point; my point is that whenever someone brings up Tesla, there's some stereotypical conspiracy theorist who needs to mention that "here was a noble soul who was villaniously downtrodden by the evil corporations of his day."

In some ways it's like the militaristic glorious defeat, or romantic loss. For example, Hannibal's campaign in Italy (and ultimate loss), the Spartan annihlation at Thermopylae, Custer's last stand, etc. There is some set of people that admire losers who lose in romantically noble ways. If Tesla had won at every level and Edisons ideas had lost out, I believe this set of people would post the same theories about Edison instead.

Re:Tesla and radios. . .

[exp(pi*sqrt(163))]

His discovery of the radio was sparked by an incident where he was instantly aware that his mother who was in another country at the time, had just experienced a severe trauma. This experience is what caused him to think along the lines of sympathetic resonance. The science book people of today don't like guys who talk about such things.

Eh? You're claiming that people don't put Tesla's claimed supernatural experiences into textbooks because of a conspiracy to keep us down? This is the stuff of biography books, not physics textbooks, that's all.

Re:Tesla and radios. . .

[Beryllium+Sphere(tm)]

>all matter, (including elements of the human nervous system), resonates at specific frequencies.

What is the inductance of those elements of the nervous system? What is their capacitance? Answer those questions and you know the resonant frequency.

What is their electrical resistance? If they're not superconductors then the resonance is broader and weaker as the resistance goes up.

It is accurate knowledge that is liberating.

Re:Tesla and radios. . .

[octopus72]

One big problem was probably that he wasn't American, but a Serb from Croatia (then part of Austro-Hungaria state). And Americans lke Edison always had better business talent. Tesla was ripped off by companies that today run U.S. (or even world) energy production.

Re:Tesla and radios. . .

[MadUndergrad]

As a matter of fact, the resistance through my body (hand to hand) is ~10MOhms, ~9MOhms if my fingers are wet. Can't speak to the inductance or capacitance of individual parts, though. :p

Mentioned before in fiction...

[AceCaseOR]

Didn't a Repairman Jack novel have a gadget that did this as the McGuffin?

Re:Tesla ALREADY did it 100 years ago ? so ?

[Fantastic+Lad]

Unless I'm mistaken, the only way (short of lightning) that EM broadcast/reception works is based on frequency resonance. What kind of system was Tesla trying to employ? --Let's not forget, the man invented the radio. (Marconi just capitalized on it.)

-FL

encryption

[shakuni]

we can just encrypt the EM waves and then there can be no theft. I am half serious.

btw wireless power - what are batteries ?

My walls!

[SQLGuru]

I would love to see this come to market. Instead of plugs, my house would have resonant antennas embedded in all of the walls. Then, I can just put things whereever I want them. They'll get the power they need (~15ft gives 30ft coverage, no room in my house is that big). The only concern would be with reception (such as cell phone or FM) with that copper Faraday cage in all of the walls. TV wouldn't be much of a problem because my TV antenna is this DirecTV dish sitting on my roof and my internet comes from my cable company through this black "tube".

Layne

RTFA??!?!?

[EComni]

Maybe the summary got edited to take out the word "discovered", but too many people are chiming in with "Tesla did it!". From the article itself:

...
US researchers have outlined a relatively simple system that could deliver power to devices such as laptop computers or MP3 players without wires.
The concept exploits century-old physics and could work over distances of many metres, the researchers said.
...
Old technology
The team from MIT is not the first group to suggest wire-less energy transfer.
Nineteenth-century physicist and engineer Nikola Tesla experimented with long-range wire-less energy transfer, but his most ambitious attempt - the 29m high aerial known as Wardenclyffe Tower, in New York - failed when he ran out of money.

Yes. Tesla did it. We know it. The article knows it and states it plainly. The credit has been given. So can we discuss the actual feasibility for short distances, now?

Re:RTFA??!?!?

[Cheapy]

Yes. Tesla did it. We know it. The article knows it and states it plainly. The credit has been given. So can we discuss the actual feasibility for short distances, now?

You're no fun. You ruined the test to see if people read TFA.

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

Actually, I have lived in several places where trash pickup was not tax based, and was privately owned. These locations were in the US, and not some other country, before someone makes that counter argument.

Microwave Ovens, Pacemakers, et al

[jonro]

We have something like this today; it's called the microwave oven. Microwave energy is a frequency that causes water molecules to vibrate, causing food to heat. That is wireless transmission of power, a significant amount of power. The old crystal radio headsets ran off of the power of the radio signal itself. Obviously, there's not a whole lot of power in a radio signal, but enough to do some real work. The original pacemakers were recharged daily by magnetic induction. There's a bunch of devices that have been powered wirelessly. If this new system works safely, it would be fantastic.

Re:Tesla ALREADY did it 100 years ago ? so ?

[fatcat101]

Has no one else heard of similar technology from SplashPower http://www.splashpower.com/. I think MIT should check out the Cambridge spinoff before they go any further.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

how so ?

if i obtain a receptor unit (for the energy) and use it, who is going to know that i am using it and how much i am using it ? how they are gonna keep control on wireless power ?

Re:Tesla ALREADY did it 100 years ago ? so ?

[gurps_npc]

Tesla also invented the Radio, even though Marconi industrilized it (and tried to steal credit - but he lost the law suit and Tesla officially invented it).

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

People would heat their homes with electricity rather than have to pay for gas or oil, even though it's less efficient.

that, you are in err here.

heating by electricity is the most power efficient heating, due to the fact that as far as i know the 'resistor' is the most efficient machine ever known to mankind - it transforms 99% percent of the input power to the desired result - heat.

Power transmission through resonant antennae?

[crmartin]

Nikola Tesla, thou art avenged!

Awesome.

[Canthros]

I can't tell you how long I've been looking for a wireless extension cord.

Re:Awesome.

[belrick]

I can't tell you how long I've been looking for a wireless extension cord.
Actually it would be possible (I think) to create an unpowered resonant coupler that would extend the field (there would be some loss).

Re:Awesome.

[Canthros]

I'm only half joking, actually. None of the outlets I have access to are any place that's convenient, and the place is already an awful mess of cables.

It was just too silly a thing to pass up noting.

Batteries are highly efficient

[Colin+Smith]

Batteries still only return a tenth of the energy put into charging them,

Sorry, this is rubbish. Batteries are generally highly efficient. The efficiency of the system is determined by the charger which can be anything from crap (30%) to excellent (90%).

Re:Batteries are highly efficient

[Dasher42]

My information must be old or out of date then. Thanks for the correction.

It still might be an interesting idea for public transport, though.

Tesla...

[wannasleep]

wasted his fortune trying to achieve the same thing....
I seem to recall that you can prove with the Maxwell equations that it is basically impossible to achieve wireless transmission of energy at reasonable distances...

Re:Tesla...

[SailingMike]

Yes, indeed. I was about to post a similar response regarding Tesla. I recall in an authoritative biography of Tesla, that he had claimed such a capability, but was unable to procure adequate financing from Mr Westinghouse to deploy the project. I further recall significant speculation regarding the fate of his papers upon his death. The more conspiracy-prone blame the US government for the ransacking of Tesla's NYC hotel residence quickly after his death. Perhaps the "agents" were incapable of recognizing the nature of the papers? After all, one man's scribbles are another man's equations.

Re:Tesla...

[Creepy+Crawler]

What Tesla came up with is not alien-abduction fiction, but true.

Unlike what Tesla thought about the aether, we now know what RF energy is, how it propagates, and how it stores energy. We have a decent command over a large portion of the spectrum under visible light (400 nm and lower), and we understand that the frequency is linked to the relative energy of the RF.

I once created a 20.5 MHz version of this using a car battery, but since there's soo much energy, filtering is almost pointless. I ended up wiping out a nice 4 MHz chunk of spectrum and had the FCC on me. To put it bluntly, this stuff is worse than spark-gap xmitters. I ended up dismantling this contraption when I received my Ticket (amateur radio license)

Lest to say, it IS possible, but stick with very very low power stuff over short distances. Otherwise you'll end up doing bad things to your local electronics and receiving gear.

KC9JEF.

Already got one

[djtack]

Bah, I've already got one of these, and I don't have cancer yet.

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

Same way the ISPs prevented wireless braodband for everyone:

Declare it unconstitutional for the government to compete. The ISPs case would provide precidence. At that point, all they have to do to keep it from being around is to not produce it themselves, and I can gurantee you, that won't be too difficult.

Hmmm

[Bombula]

The article mentions resonant frequencies, and I'm suddenly reminded of a certain visor-wearing Starfleet officer always blaming the phase-inducers for some damn thing to do with resonant frequencies...

Re:Tesla ALREADY did it 100 years ago ? so ?

[Colourspace]

I was involved with designing CPLD's into this product about two years ago. Saw one of the first proto's. Quite impressive stuff, limited range though.

Hard enough as it is

[Joebert]

Me being someone that's been electrocuted more times than I can count, you have to understand why this scares the living shit out of me.

Re:Hard enough as it is

[antispam_ben]

Me being someone that's been electrocuted more times than I can count, you have to understand why this scares the living shit out of me.

Perhaps you have received electric shocks more than once, but you can only be electrocuted (killed by an electric shock) once.

The real danger here is excessive heating of living bodies, and possible RF burns if your hand gets too near the power transmitter. At 6 MHz, it's too high a frequency for the nervous system to respond, thus it won't shock you, but it still can hurt you.

Pros vs Cons

[Reidsb]

I admit, the idea of using this on lower power devices is sexy. Never charging a cellphone, iPod, laptop, or wireless game controller would be great. I just don't know if I would trust it for heavy duty power needs like appliances and computers. What would the rate of charge on something like this be, btw?

However, I hope they can get a version of this working for electric cars. That would be perfect. A transmitter in the garage at home, a transmitter in the parking structure at work, etc... If they could prove it was safe enough, they might even be able to put them near major freeways. (at least at gas stations/rest stops) Never having to plug the car in would be a big selling point for manufacturers.

You would need to make this pretty idiot-proof, however. What happens if someone accidentally steps on a transmitter? Would that alter it's frequency? What kind of problems would that cause? Furthermore, according to the article, both the transmitter and the receiver need to be at the same frequency for this to work. Does that mean this would be a powered antenna? That seems to me like it would sort of negate the point because you would still need some way to get power into the device if it runs completely dry.

This also opens up some other problems, the largest of which I can think of is theft. There would have to be one or two set frequencies these devices could operate on, so someone else is bound to have a matching receiver. If you are doing this in your home in the suburbs, that's fine, but in a crowded metropolitan area, it would be easy for lots of people to siphon power off your transmitter as well. Even for low-power devices like cellphones, that can add up to a lot of cost over time, the only solution being limiting the range of the device, which defeats the whole point of wireless charging.

just one more source of radio freq pollution

[LM741N]

At what point will we have so many wireless devices that wireless communication becomes impossible? Yes, I'm sure that one could build in a lab a device that transfers power this way without much interference to nearby wireless devices, but what happens when the products are being built in China?

Re:Tesla ALREADY did it 100 years ago ? so ?

[12357bd]

This is using frequency resonation, Tesla's system didn't.

Sorry, but Tesla was a master in electromagnetic resonance.

human-powered mp3s, cells?

[peter303]

I recall self-charging watches, charged from the arm movement of their owners. I dont know this would work for other devices. I've seen protypes of shoe-powered devices, but they have wires, or require moving batteries.

There are prototypes of self-charging medical devices from thermal or chemical gradients in the body.

Can't be 100% reabsorbed

[A+nonymous+Coward]

Isn't that one of the laws of thermodynamics? Not all the energy would be reabsorbed, correct? And that excess, no matter how small ... well, it would be enough for lawyers if not doctors.

Re:Can't be 100% reabsorbed

[241comp]

No, the laws of thermodynamics say that 100% of the energy will be absorbed... By the receiving device, by the transmitting device or by something else. But 100% of it will be reabsorbed by something, somewhere (well, unless it gets radiated at such a trajectory that it does not encounter any mass capable of absorbing it). The question is, what part of your body resonates at 6.4Mhz (and do you care if it absorbs energy).

Re:Can't be 100% reabsorbed

[Eivind]

Actually, pretty much every part of your body absorbs electromagnetic radiation at 6.4Mhz. Most of it will get absorbed in the surface (too high frequency to penetrate deeply)

What effects that'll have remains to be seen, at best ignorable skin-heating. Unlikely to induce cancer as the radiation is (several!) magnitudes to weak to be ionizing.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

what if some non-profit 'foundations' or ad-supported broadband providers offer wireless broadband free ?

Maybe it's the heating

[A+nonymous+Coward]

I read of some study, yes peer reviewed and in a respected journal, which showed some small amount of heating in cells. Presumably, since heat shock proteins come into play as temperatures rise, and since bodies try to maintain a stable temperature, this is not a welcome heating, and there may be adverse reactions to it.

I have no references. I think it was in the last year or so.

Re:Maybe it's the heating

[tgd]

Thats why I try not to move around too much, go out in the sun, or wear pants.

Any one of those could heat up my cells a little bit and give me cancer!

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

the not-for-profits would probaly be hit with unfair competition without ad support The ad support stuff could be done for broadband though. As for power - try putting advertisements in that... I can see it now: "Hmm, my lights keep blinking on and off in morse code, 'Eat at Dennys'. I'm scared."

Into the Frying Pan

[Doc+Ruby]

How will they catalog all the natural resonant frequencies of all the millions of different molecules in humans and other organisms, including bacteria? How will they keep harmonics, which undergo distortion, and other leakage, from flooding the rooms with high-powered noise that can be reabsorbed by in/organic matter?

Who are they going to test this on? Are they going to get the cellphone and electrical plant testing people to certify this stuff?

Now, I can power my flying car!

[Peter+Simpson]

Finally, a solution to Boston traffic!

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

it seems sooner or later public should file against such big-money control practice.

we already have wireless power

[DragonTHC]

the principle of induction is already at use in plenty of devices to provide wireless power.

Re:Suggested Tag

[smallfries]

Has to be "wheresmyfusionpoweredflyingcar"

Re:Tesla ALREADY did it 100 years ago ? so ?

[jimstapleton]

oh, you can bet they are against it now, but trying to fight it is easier said than done.

Only the small matter of unusable efficiency

[Ancient_Hacker]

AFAIK Maxwell's equations havent changed in 130 years.

If you read TFA you see this has only been simulated.

Power transmission follows well-known laws, as a rough estiamte,
power transmission efficiency at 6.4 MHz is going to be about 0.01% at a few meters.

There's no way for an antenna to "reabsorb" the uncollected power.

And "Resonance" is over 100 years old, well explored, and has nothing to do with improved power transfer and "non-radiating" antenas.

What nonsense.

somehow...

[oohshiny]

Somehow, broadcasting several kW of power at 6.4MHz in every home does not seem like a good idea.

Actually, I like the idea of laser-powered transmission much better. Think about it: a 1kW laser with targeting hardware (including camera) in every room, probably all connected to the Internet. Can world domination be far behind?

efficiency versus practicality

[zogger]

Most efficient but in most places it is not the cheapest to the consumer, and sometimes not even the most practical. Just delivering via the grid introduces some efficiency losses. And electrical heat has the unfortunate side effect of when there is a storm, say a blizzard or ice storm or windstorm, right when you want heat the most..you don't have it..

We run redundant here, wood, propane and electric (primary to tertiary based on practicality and cost for our particular situation), because no heat in the winter just sucks, and you also start to have to worry about your pipes freezing then bursting later on when it warms up.

Re:efficiency versus practicality

[unity100]

Yea, and grid delivery gets disrupted often due to storms etc as you said.

hence what i think is, wireless power (safe, if it can be) and electric heating would serve best, both in terms of efficiency and reliability.

Nicholas Tessler

[akac]

I can't believe that nobody is mentioning Tessler here. While he is dead now so nobody can prove he knew how to do it looking back now one can believe that Tessler did have the knowledge how to do this. If so, he was literally a hundred years ahead of his time.

Re:Nicholas Tessler

[akac]

I MEANT Nikola Tesla.

No SimCity 2000 microwave power references?

[Jon+Abbott]

I am ashamed that nobody yet has made a reference to the microwave power transmitters in SimCity 2000! :^)

Re:Tesla ALREADY did it 100 years ago ? so ?

[Control+Group]

Electrical heating may or may not be the most efficient available, but if it is, it's not for the reason you state. You're ignoring the initial conversion of chemical energy -> thermal energy -> electricity that takes place before the electricity even makes it to your heater (i.e., at the power plant).

Heating your house via chemical energy -> thermal energy drops the last transformation in that sequence, and this would certainly seem to be a possible net increase in efficiency.

Now, if you're on nuclear power, the difference isn't as obvious, certainly, since you can't (or at least, probably shouldn't) heat your home via nuclear energy -> thermal energy. But still, the power plant is using nuclear energy -> thermal energy -> electricity; using chemical energy -> thermal energy in your home may still be more efficient.

Here's the actual paper. This could be real.

[Animats]

Here's the paper, or at least the abstract. The talk was given yesterday at the American Institute of Physics in San Francisco. Here's the abstract, but it doesn't tell you much.

In our work, we investigate whether, and to what extent, the unique physical phenomenon of long lifetime resonant electro-magnetic states can, with long-tailed bona-fide (non-radiative) modes, be used for efficient energy transfer. Intuitively, if both the drain and the source are resonant states of the same frequency with long lifetimes, they should be able to exchange energy very efficiently, while interaction with other environmental off-resonant objects could be negligible. Of course, intricacies of the real world make this simple picture significantly more complex. Nevertheless, via detailed theoretical, and numerical analyses of typical real-world model-situations and realistic material parameters, we establish that such a non-radiative scheme could indeed be practical for middle-range wireless energy transfer (i.e. within a room, or a factory pavilion). Important novel applications are thus enabled.

The author is credible; he has a good track record in non-linear optics.

There's a somewhat nutty exposition of this resonance phenomenon here by a radio ham. There's actually some decent physics in that article, if you ignore the nutty stuff. This phenomenon has been known for decades. There's a way to actively drive an antenna into resonance and increase the amount of power it receives. The problem is that if you have those resonant currents flowing in your antenna, most of the energy gets lost in resistive heating as the currents slosh around in the antenna. This idea might need superconductors to make it work.

This area hasn't been studied much recently because it relates to antenna design for waves much longer than the antenna. All the action is up in the gigahertz range today, where antennas are tiny. Almost nobody's working on better AM broadcast receiver antennas any more. Interestingly, those wierd ferrite-rod antennas that are inside AM broadcast radios use this phenomenon. There's a radio ham in Finland who built an active resonant ferrite rod antenna for 3 to 12MHz AM signals.

Right now, this power transmission scheme is just a theoretical concept. The physicist talking about it hasn't built one. So it's not yet clear if it can be realized. But it's standard EM physics.

Re:Here's the actual paper. This could be real.

[anickname]

Mod parent up. Good to see somebody makes a substantial contribution instead of foaming at the mouth when they see Tesla's name and go in a off topic post frenzy.

Re:Here's the actual paper. This could be real.

[octopus72]

Mod the parent up, please. First informative post on the theme.

Yes, there is something here. I remember learning in my physics class about states that slowly transfer energy through tunneling to the other side (a double potential well with a barries - it was addressed on a class when WKB wave function approximation was the topic, IIRC). This just seems like thorough analysis of equivalent effect and how real world "perturbations" would affect it.

Re:EarthQuake Machine

[Sfing_ter]

Ummm... he actually made one... and caused an earthquake...

http://www.intuitor.com/resonance/tesla.html

The problem with hiding technology is the telephone/radio/programming issue, where more than one person can come to the same conclusion, albeit via different means/functions/devices.

What if...

[StreetStealth]

...a part of your body, just by chance, has a coincidental resonant frequency?

Re:Tesla ALREADY did it 100 years ago ? so ?

[radtea]

Now do this with electromagnetic waves. The real trick is figuring out how not to waste energy pumping it out in all directions. But its about as dangerous as me sitting here 1000 feet from a major radio broadcast station.....

The thing that is going on here is an antenna configuration that does not radiate significantly unless the near-field is distorted by a resonant object embedded in it.

Any conductor subject to an oscillating electric current will have an oscillating electro-magnetic field surrounding it. With the right configuration this field is a standing wave that dies off exponentially outside of the conductor, with a characteristic length comparable to the wavelength, which in the case of 6.4 MHz is getting on for 50 m (could it be 64 MHz?) No radiation is emitted, but the standing wave is still present in the space around the antenna. When another conductor is introduced into the field, it will in general absorb some energy, or at the very least allow some transmission of energy by secondary radiation. If a conductor with the correct configuration is introduced, it will absorb energy without significant re-radiation, allowing relatively efficient wireless transmission of energy.

Tesla reputedly wanted to use the electromagnetic properties of the Earth's atmosphere as a waveguide to extend the reach of the standing wave further than would otherwise be possible.

One issue with all systems of this kind is that, as noted above, any conductor introduced into the field will change the impeadance and therefore result in some energy trasmission, which will either heat the conductor or be lost to EM radiation. This does not make such systems impossble, but it does pose a significant technical barrier, which is perhaps what the current groups working on them have overcome.

But..... We already have wireless power....

[melstav]

You can buy "Wireless extension cords" from ThinkGeek.com

And no, I haven't RTFA.

Re:Tesla ALREADY did it 100 years ago ? so ?

[Knuckles]

You forget that first the electric power has to be produced and then transported. Both of which is very inefficient.

Not Sure I see the Value

[monk]

Sure it's somewhat more convenient to be able to just be near an charging station rather than touching it, but I don't see much value in this for laptops and mobile phones over just having a charging pad that uses inductive or capacitive coupling. It would be equally good at reducing cables, doesn't require a huge antenna and is probably safer. The example of an autonomous factory robot recharging makes some sense, but I suspect in most cases a close coupling, charging floor pad or wall plate would be better there too. And there wouldn't be the same problem with large conductive objects moving around near the charging pad as there would be with this near field coupling idea.

uhhh this is retarded

[carn1fex]

its just two 6mhz antennas transmitting to each other in the near-field range.. big freakin deal. Its just like inductive power transfer except the FCC is going to tell these guys to go to hell. The original problem as i see it is just how much power youre willing to blast and yes it will blast for miles and miles its a 6 mhz antenna! I mean it may be possible to orient the recieve antenna so the reradiated power from it causes some cancellation and the over all antenna pattern is small but that means you wont be able to move the transmitter and reciever relatively.. And its not even built, big suprise.

mythbusters

[isotope23]

Yes, I saw that episode. I also saw that using a VERY small weight (like 5lbs max) they made the entire steel bridge oscillate. I believe Tesla did not specify how long it would take, only that it would do so. So IMO the theory was sound. If run long enough the oscillations should induce metal fatigue causing the bridge to fail. Too bad they don't have a bridge they could try to destroy, I'd like to see them hook up progressively larger weights to see if they could take it down.

Re:mythbusters

[Rei]

They made the bridge feel like there was a car driving past it whenever it swung. This is what you call something that will cause metal fatigue? I think not.

Resonance is real. Its effects are significant. Tesla's ridiculous claims about its power are not.

Re:mythbusters

[isotope23]

Remember they were using MAYBE a 5 pound weight. If you saw the earlier portion, they had
the original test bar deflecting quite a bit, as opposed to Jamie? standing on it with no deflection whatsoever. Like I said I'd be curious to see what size oscillating weight would be needed to cause failure.

As far as I know Tesla did not spec out a size to weight ratio for his claims, he only claimed that an oscillating device could cause structural failures.

Wha wha whaaat?

[retro128]

Either I'm missing something or this article is complete fluff. Is what they're talking about REALLY innovative? Can some antenna geeks/EM specialists help me out here?

Let me see if I can translate the article from "Let's obfuscate what we're really doing using terms we're making up on the fly so we can get grant money" to "truth".

Typically, systems that use electromagnetic radiation, such as radio antennas, are not suitable for the efficient transfer of energy because they scatter energy in all directions, wasting large amounts of it into free space.

To overcome this problem, the team investigated a special class of "non-radiative" objects with so-called "long-lived resonances".

If you have a power source that alternates, it will propagate through space. Let's call a conductor that is designed for this purpose an "antenna". An omnidirectional antenna will send it out in all directions, but it's possible to build antennas that concentrate the energy in a single direction. That's why they use huge parabolic dishes to talk to satellites orbiting around other planets - They concentrate the signal and send it in one direction, with little radiation leaking out to the sides. Sorry, scientists, someone beat you to the punch on "non-radiative" antennas.

"If you bring another resonant object with the same frequency close enough to these tails then it turns out that the energy can tunnel from one object to another," said Professor Soljacic.

Antennas can not only send, but receive. In fact, any metal object exposed to an electromagnetic field will induce that field and turn it back into power. That's why fluorescent tubes light up in your hand without a power source when you are standing near an active Tesla coil - There is literally enough power going through it (and your body) to energize it. But let's not talk about inductance, let's talk about "resonance" and "energy tails".

Pft. "Resonance". It's called tuning, fool. EM waves are like any other kind of wave. There is a measurable length from crest to crest. If you've heard antenna terminology talking about full wave, half wave, and quarter wave antennas, this is what they are talking about. Antennas are optimized for certain frequencies by their size. You can cut the antenna size down by 1/2 or 1/4 its optimal length and still get pretty good power transfer. It IS possible to receive a signal from a transmitter regardless of antenna size, but if you are interested in distance, tuning should be done to optimize power transfer. This is the part that really blows me away - These fools are talking about this field having a period of 6.4MHz. If you divide the speed of light (300,000,000 m/sec) by the frequency (6,400,000Hz), you will see that the optimal length for the sending/receiving antenna is 46.8 meters!. Even it was a 1/2 or 1/4 wave, that's still pretty huge.

One other thing - You might already have an inductive charger in your home. Most cordless toothbrushes and electric razors charge in this way now - Without direct electrical contact. These guys are trying to build an antenna that can transfer enough power to do it from a distance. Sounds nice, but I'm not going to attach a 46 meter coiled antenna to my cell phone.

er, i guess i should rtfa more closely :)

[carn1fex]

"To overcome this problem, the team investigated a special class of "non-radiative" objects with so-called "long-lived resonances". When energy is applied to these objects it remains bound to them, rather than escaping to space. "Tails" of energy, which can be many metres long, flicker over the surface. "

Hmm i missed this paragraph when i first read it.. "non-radiative" objects, never heard of em.. hmm! I stand corrected but it seems bizarre stil. Cant find much on wikipedia either. Anyone work with these?

Re:Tesla ALREADY did it 100 years ago ? so ?

[jonniesmokes]

Mod immediate parent up!

I'm dubious that these folks have overcome the limitation explained above. Tesla never overcame the limitation and that's why we don't use this form of power transmission.

Its amazing how many people don't understand electromagnetism even though its a really old science now. I've finally come to terms with it more or less, though I think I could use maybe one more series of classes to really understand stuff like antennas.

Off by one..

[The+Creator]

"There's no way for an antenna to "reabsorb" the uncollected power."

Actually there is since, in this case, it is not radiated as RF-energy, it is simply stored in a near-field.

Most people don't know the difference, but the phenomenon is related to the one that makes bulb fronts more efficient in ships and makes sumbarines move with less friction below the surface that at it.

Re:Off by one..

[Ancient_Hacker]

> Actually there is since, in this case, it is not radiated as RF-energy, it is simply stored in a near-field.

Then it's not an antenna.

It's a resonant circuit with high circulating currents.

These kind of fields drop off as the cube of the distance, making them mostly useless.

Senor Marconi punctured this scheme in 1902.

I thought we'd advanced a bit since then, apparently not.

Re:Off by one..

[The+Creator]

"Then it's not an antenna."

True, however they referred to as one in the article and didn't bother to correct that.

"These kind of fields drop off as the cube of the distance, making them mostly useless."

Again true, exept for very low values for "distance".

Obligatory Simpsons Reference

[Kinthelt]

In this house, we OBEY the laws of thermodynamics!

Finally: this could mean a satisfied customer!

[real+gumby]

This reminds me of a hilarious tech support call described by a former applecare support person. A choice quote:

"Wha.. you mean I have to plug this in occasionally? That totally defeats the purpose of getting a laptop!

Check out the link. The whole story makes it even funnier, and even more appropriate to this thread!

(obvDiscl: My only connections to that site are that I read it the other day and I have owned Apple products. Oh and called Apple support myself).

GI Joe Movie

[saviorsloth]

I just hope they can keep this thing out of Serpentor's hands

Cargo cult science warning...

[j_square]

This unfortunately seems to be a case of "cargo cult science". It looks like science, but isn't. I just got hold of the actual paper on arXiv.org, and some comments after quickly browsing through are:

1) It is a purely theoretical study made by a physicist, who evidently has little experience within RF engineering. With such a "simple" concept, why didn't he bother making a quick experiment? (Spoiler warning: Many beatiful theories have been killed at infancy by experiments...)

2) He is assuming totally unrealistic Q-values.

3) He doesn't explain how he will get the RF energy into and out of the resonators. The Q-value of these circuits would load his resonators.

4) He is using ridiculous precision in his results (6 significant digits...)

5) Magnetic coupling between tuned circuits has been known for ages, but then of course cast in its standard EE terminology. Now a physicist has rediscovered it...

6) "Publication by press release". Making exaggerated claims in the media is no substitute for peer review (where the peers are within the correct field).

Mod parent insightful!

[Eivind+Eklund]

The parent describe a seemingly feasible security system for general delivery of wireless power. Ie, where you can pay for the wireless power you use, and make sure that only you use it. Two reads was necessary to understand it, though.

Eivind.

Tesla Info

[Xybot]

If you'd like some more Info on Tesla:

The missing secrets of Nikola Tesla - Google Video.

Quite an extraordinary man.

Re:Tesla ALREADY did it 100 years ago ? so ?

[Yogs]

And what makes this not waste energy by pumping it in all directions, or not waste energy when there's nothing around to charge? Not saying I don't believe they have something as cool as they say, I just want to know how it works.

My starting point is just Tesla and magnetic flux.

A couple toroids of copper wire and a couple squigly blue lines don't give me anything more.
Your sound wave analogy is pretty, but doesn't really improve my understanding.

Does anyone really know how this is supposed to work?

When they say "reabsorbed",

[Beryllium+Sphere(tm)]

that's only a first approximation.

It's a radio signal going to an antenna. The antenna is way shorter than a wavelength, it radiates very inefficiently with almost all the signal getting sucked back into the antenna when the current changes direction, but "almost" is not "all". There would be millions of these devices, and each would be moving several watts around. Only a tiny fraction of those megawatts will be radiated, but remember that there are ham radio operators who make a hobby of talking over thousands of miles with less than a watt of radiated power.

Re:Tesla ALREADY did it 100 years ago ? so ?

[compro01]

unless I'm remembering completely wrong, i believe that uses magnetic induction, rather than a broadcast sort of power that they're talking about in the article. i have a waterproof electric shaver that charges using the same principle. it's very good for extremely short ranges, but it won't cut it as a power cord replacement.

Nay you miss a point

[unity100]

First, what i meant is the end machine efficiency - and in the end, compared with all the other heating methods you describe, electricity heating might still come up on par.

And the point you are missing is that, we can GENERATE electricity, as opposed to our need to deplete already scarce resources while using other means of energy - petroleum, gas, wood, coal etc.

If need be, and sufficient amount of research and funds pour in, i believe that more efficient ways of generating electricity can be found.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

If you can elaborate on how is it hard fighting against wireless net and power, you would do a great service in easing my mind at least - hope is much needed.

Re:Tesla ALREADY did it 100 years ago ? so ?

[MindStalker]

Actually talked about this, this afternoon to someone who knows a bit more about this. Either way back to the sound example this is slightly different than I imagined. Imagine two tunning forks both vibrating very close to one other. Tuning forks by nature radiate very little energy, most of it is contained. Apparently if you add or remove energy in small amounts from either tunning fork the two systems will share energy and so energy is drawn from one fork to the other to create an equalibrium. Now imagine doing this with with electromagnetics. In effect you have standing electromanetic waves coming from both sources which comingle. Big problem with this is is still that you really can't have much in between the two, and there is the problem of energy waste. Maybe its been solved but this article doesn't provide much insight.

Re:Tesla ALREADY did it 100 years ago ? so ?

[soft_guy]

trash pickup has to be tax-based, because otherwise people would find some other way to dump

I used to live in Washington state. We did not have tax-based trash pickup. You either had to pay a private trash hauler, or else take it to the dump yourself (and pay at the dump to get rid of it.) Now, I live in New York and we have tax based pick up. There was not a big problem with illegal dumping in Washington, but after living in New York, I think you are probably correct regaring what people would do here. But it is a very different culture.

late but interesting - crystal radio

[JCOTTON]

Thinking about free power... I'm sure that all you slashdotters have built, at one time or another, a crystal radio. The idea is that all the power used to drive the earphone comes from the air, for free (ultimately, from the radio station transmitter).

I built one, using my outdoor shortwave wire antenna, and a good ground. The 50kw station was over 5 km away, but I still gathered enough power to drive a loudspeaker, and that would be minimum 100 mw, or .1 watt.

I have considered, what if I lived really close to a 50 kw am transmitter. With a vertical tuned antenna, a good ground, and diode bridge, I bet I could draw 100 watts, enough to light up a bulb.

That's free. For me at least. It would reduce the effective radiated power of the transmitter by an equal amount.

Re:DNA IS damaged by EM radiation

[octopus72]

Duh, less then electronvolt is enough to start breaking molecule bonds in tissue of organisms. This starts just above visible spectrum. But this's > 1000 THz if I remember correctly.

It is however possible that harm can be done even with much lower energies (=frequencies) but at higher intensity, but I'd say unlikely and very hard to proove if it happens.

Re:Heat = Loss

[dextromulous]

Do the transformers you've bought run at ambient temperature? No? Then they are inefficient... unless you are using the heat for something, of course.

1. I specifically stated I did not buy transformer based wall-warts
2. I did not say anything about their efficiencies, let alone saying they were perfectly efficient
3. The switch-mode devices I have do run at ambient temperature under no load (which is more than can be said for transformer based wall-warts.) They do heat up under load, but not nearly as much as transformer-based equivalents
4. If I cared about 100% efficiency, I wouldn't be on slashdot :-P

Re:DNA IS damaged by EM radiation

[smellsofbikes]

I want to see some good data on the bandwidth and frequency selectivity of this antenna of theirs before I'm going to be wearing one next to any body part I care about, let me put it that way. Water, or more particularly they hydroxyl molecule, has an enormously wide absorption peak in the IR. Anything transmitting anywhere in that range will transfer thermal energy to the hydroxyls. It's possible that they've found a frequency range where nothing biological has any coupling whatsoever, but I want to see some more data. (And yes, I'm looking.) There are, generally speaking, some physical constraints on how narrow an EM peak you can produce.

An anal clarification!

[A+nonymous+Coward]

Nice concept :-)

Yes, what I meant was, not all of the energy will be reabsorbed by the base station, it would have to be 100% efficient, eh? The lawyers will argue about that and how much the body absorbs and what clinical trials were done and how well.

Tesla and businessmen

[wikinerd]

Didn't Tesla built something similar? When he presented it to a businessman for sponsorship, the businessman asked how he could put a meter in order to profit from it. Tesla said he couldn't, and the businessman didn't sponsor his device. I do not know whether this really happened, but it is a story commonly said.

Actual Paper on ArXiv.org

[QuantumFTL]

Here's the actual paper the article is about.

Seems to me to be little more than a clever way to couple oscillators using higher order moments (that confine the majority of the energy around the device to be very close as they drop off much faster than inverse squared). The paper contains some interesting preturbation methods for determining how badly other objects in the nearby area would affect such a system, however I haven't had time to go through the math in detail.

Disclaimer: IANAP (but I do have a degree in physics) - any actual physicists like to comment on the mechanism here?

While you're at it..

[kn0tw0rk]

why not cover the roads with solar panels to help provide the power to transmit to the cars?
They cover a lot of surface area already.
Gonna have to 'improve' lots of roads of roads to make it feasible. But it might be cool/interesting/viable for vehicles that operate on a short circuit... maybe like race cars... now that would be cool, use it to modernise scaletrix.

Middle School

[Kancept]

When I was in middle school we had a generator in the science class that gave us wireless power. The teacher fired it up, gave us all fluorescent tubes, then turned off the lights. As he turned up the power on the thing, our lights began to glow brighter. I've always wondered why this hasn't been used more, since we didn't discuss side effects with it back then.

Ethernet-over-powerline

[sabit666]

Can we use Ethernet-over-powerline technology and transfer data over this?

How it works.

[Ungrounded+Lightning]

And what makes this not waste energy by pumping it in all directions, or not waste energy when there's nothing around to charge?

The antenna is composed of more than a dipole - like a quadrupole or more. (Details aren't clear from the article.)

At large distances the fields cancel out. So energy is not radiated away. At short distances it doesn't cancel out exactly. There another antenna can couple to the transmitting antenna and absorb energy from it.

It's much like total internal reflection with light trying to make it from inside a high-index-of-refraction material to its lower-index surroundings. If the incident angle is increased beyond the angle where the light would be refracted to be parallel to the boundary surface, there's no direction in which the light wave could add up to non-zero strength. Thus the light can't escape. Since the surface isn't "lossy" and can't absorb the energy, the light is totally reflected. But the fields from the light extend a small distance - like a half-wave or so - from the surface (and cancel out rapidly beyond that). If you bring another piece of high-index material close enough to (or touching) the surface, this field will penetrate it. Now the fields add up in a particular direction and the light can travel beyond the formerly totally-reflecting interface. (That's how you measure the refractive index of opaque things like ketchup, and how some fingerprint readers get a clean image.)

Most of our insights about light and radio have to do with the "far field" - where the observer is so far from the transmitting antenna that the angle between lines-of-sight to its various parts is negligible. In the direction of antenna nulls there is no field, because the total of the field from all the points on the antenna adds to zero. But get close enough that the angles become significant and the distances - and thus the wave phases - no longer add up the same way. Then you're in the "near field", where the signal doesn't cancel out.

With this device, as with total internal reflection, you've got an "antenna null" in every direction. There's a significant amount of electric and magnetic field for a quarter-to-half-wavelength from the antenna, but beyond that the field falls off to essentially zero very quickly. Cancelation means the open space acts like a perfect mirror and puts all the energy back into the transmitting antenna before it gets to far-field distances. So there's no load on the transmitter. (The antenna acts like a short or open circuit on the end of the transmission line and bounces all the energy back into the transmitter.)

But bring a probe close enough to the transmitting antenna that the lines between the probe and the transmitting antenna's parts are no longer near-parallel. Then the differences between the distances to the various transmitting parts deviate from the relationship they had at the large distances. You're "in the near-field" and the signal DOESN'T cancel out. The probe can suck in some of the power, potentially with near-perfect efficiency. The loss of this energy may also disrupt the far-field cancelation a little bit, allowing another part of the energy to leak away. But the leaking energy won't exceed the amount captured, since it consists of the fields that would otherwise have been canceling the energy that was grabbed. And other parts of the receiving antenna - which are at other distances from the transmitting elements so things add up differently - can capture some or all of THAT energy. So the leakage may be very small to non-existent. In that case essentially all the energy lost from the transmitting antenna ends up in the receiving antenna's feedline. The transmitter sees the receiver's load (plus the load of any leakage from imperfect field disruption) and the energy is tranferred with negligible loss.

Does this make any sense yet?

Interesting

[Spunkee]

It's like taking a single tuning fork into a room of 1000 identical tuning forks and striking it... All the others will begin resonating too and produce sound.

I've never tried this, but some quack I was reading claimed it would work this way. Is this true? The article makes a similar analogy, but doesn't claim that n tuning forks will all equally resonate with just one starting it all.

Any nearby metal ruins the fun

[ebers]

You CAN build an antenna that couples very weakly to propagating (and thus energy removing) radio waves. Around such an antenna there will be a near-field electromagnetic wave (sometimes called an evanescent wave) that can couple into a resonant circuit. But: this near-field electromagnetic wave will also induce currents in any conductors (metal) lying around. The current heats the metal. It also causes the metal to act like an antenna of its own, most likely one that WILL couple to propagating waves. These two mechanisms will bleed off power. Furthermore, the intensity of the near-field wave will fall off very rapidly with distance from the transmitter, so even weak couplings to nearby metal objects will waste more power than will ever reach a well tuned but distant receiver. There will also be heating of dielectrics by the near-field wave, though this is not a very strong effect at only 6 MHz. This is very much like the inductive charging systems. They don't couple much to the propagating radio waves because they only use 60 Hz. The magnetic field they make is a dipole and falls off with the cube of the distance from the transmitter. So unless you put the receiving object right on top of them, they can't transmit much power. You could make a giant one, and move power around a room that way, but you would be living inside a transformer. Any metal in the room would get hot as hell. All of this should be obvious to an MIT professor. But it's good for a piece of hype.

Re:Tesla ALREADY did it 100 years ago ? so ?

[unity100]

thats what we were talking about - combine wireless power with electricity heating. And use alternative sources to generate electricity.

Nikola Tesla?? Is that you??

[Hejuco]

I'm sure some of you Slashdot geeks are Alt Sci nerds as well. This sounds a whole like like the proposed WardenClyffe Tower project on a Nano scale. How is it that after 100 plus years this is a "breakthrough"? What next, signals from Mars? (has anyone found that Martian roverbot yet?)

Direct interaction isn't necessary.

[Valdrax]

Ummm ... I don't know if you're really unaware of the counter-argument here, but this has nothing to do with heating or not. The plain and simple fact is that DNA does not interact with light at microwave/radiowave frequencies. Therefore DNA can't get damaged by cell phone radiation.

It's definitely true that DNA cannot be directly damaged by microwave radiation, but can microwaves catalyze a reaction that can lead to increased rates of DNA damage through other mechanisms that normally exist in the cell?

For example, I'm aware of at least one study that shows how alternating magnetic fields can damage DNA. You may tell yourself -- quite reasonably -- that magnetism has no effect on DNA since DNA is non-magnetic and be right, but it does have an effect on iron ions in the cell, which can catalyze the creation of peroxide in the cell which can damage DNA. So, even though magnetism cannot directly damage DNA and cause cancer, it can affect other systems that can. Read more here.

Now the big question, which we haven't found and answer to, is whether or not low levels of microwave radiation can similarly affect a process that can damage DNA. Research into the safety of cell phones produces contradictory results, and no one has found a mechanism, like Dr. Lai's above, to explain the increase in DNA strand breakage found in some research results. Barring a mechanism, it's mostly a battle between independent and industry-funded researchers over whether actual DNA damage occurs or not and whether it's more than the body can naturally handle or not.