Nice work! 23% power efficiency is a lot more than I would have expected out of this kind of setup.

It is huge jump from 5% to 23% Absolutely required a tremendous amount of work Salute to great scott And New great scott intro is nice

Great video. I'm amazed at the level of mathematical theory used in your videos. And how easily you manage it. You're one of the few you-tubers that excel at both theory and common practice. It confuses me, just sitting here watching you . But I do enjoy what you do, it's very educational 😉

@GreatScott! - My research on this topic indicates that you can greatly extend the power transfer distance by interposing PASSIVE COILS (NX) with the same resonant frequency _near or in between_ the transmitter (TX) and receiver (RX). In fact, one paper on the subject said that the power transfer Coupling Efficiency (CE) improves as the *square* of the number N of coils. (This strikes me as being very analogous to the case with a Phased Array improving as the number of elements squared.) For Inductively Coupled Coils, the equation for *ideal* Coupling Efficiency would be like CE = 1 - (1/N^2). Thus for just 1 coil, CE = 0 (you can't transfer power at all if there is just one coil), while for N=2, CE = 0.75, for N=3, CE = 0.89, for N=4, CE = 0.9375, for N=5, CE = 0.96, etc. That equation indicates that with an infinite number of coils, Coupling Efficiency would be perfect, 1.0, unity. In reality, those numbers should be multiplied by your efficiency with your basic 2 coils, TX and RX, immediately adjacent to each other. The paper also spoke of creating a whole _mesh network_ of the passive coils, for very high CE anywhere within a whole house. I would love to see if you can reproduce those results, GreatScott... or anyone else!

Thank you for this video GreatScott, lots of information presented in an easy to handle way!

I never get bored while watching your videos on KZbin and pictures on Instagram. It always makes my day better... ❤️

Great video, as always, and really glad that Elektor are sponsoring you as they're much more relevant to electronics hobbyists than (not round) Space or the VPN companies that seem to sponsor a lot of stuff on KZbin...

Love the animated intro - I wish there was a mashup with Take On Me 🙂

Shocked, that Elektor Magazine is still around. It faded from my orbit just as 'Wireless World' had done similarly before it. Both, during 50 my years of interest. Thought that hobby electronics had miniaturised into surface-mount oblivion. Your experiments demonstrating mind-blowing modern home lab equipment - so refreshing. Thanks.

lets appreciate the fact that he did all this to make a video for us!

Great quality +Great content +Great proyects +Great channel = Great Scott

Hi, will you try adding ferrite tiles on the back of the coil to redirect the B field to the front, like induction cooktop are made ?

Have you tried the experiment with a metal backing plate (pizza Pan?) behind the transmitting coil? Currently the energy is being transmitted in all directions from the coil. If you use a metal plate behind it you should have more energy directed to the receiving coil. This would be even more effective if the backing plate had a rim around it that would go around the circumference of the coil. Perhaps you could do a video trying different shapes of metal backing plate: flat, bowl shaped, parabolic, etc, or even tin foil shaped around the back 270 degrees of the coil with only the front side of the coil exposed in the intended direction of transmission.

Bedankt

Fantastic, dude! Really amazing work! 😃 It's really interesting how physical differences in the used wire changes things! Anyway, stay safe and creative there! 🖖😊

Excellently comprehensive coverage of the topic !! No way did they get into anything near that level of information detail when I went to Electrical Engineering school !! THANKS !! ;)

The real difficulty of the Q measurement is that it is the tangent of the phase angle. Because tangent function diverges at 90 degrees and you are measuring phase angles close to that value, you'll need to measure the phase angle very precisely, because even a small error in the angle will result in a big difference in the Q calculation.

You are the great book that I'm never lazy to read. And you give great motivation for lore

Really good video Scott! It worth the time I wake to 11PM right now ;)

You and your ideas are always great 👍🏻

Great video, great sponsor ! Quality all the way !

Man your videos are always a masterpiece 👏. Thank you for this beautiful showcase of electronics I appreciate it 😃

Congratulations more than 100 comments within 1 hour of you posting the video. This shows that your content was,is and will always be amazing. Keep it up!

Great as ever, looking forward to more of these kinds of videos

I love the new intro!

finally after waiting for so long an amazing video of great Scott, great work

The black and white , pencil stylized is very nice! Okay, I'm going to finish watching ✋

Grate, i really like the power stuff you do. But we are all wondering when you finally finish the spot welder thing.

9:19 nice whistle!

Great Scott!! What have you done?! ;-) 1.6 Million! You are on your way! Thanks for all the "Great" Videos!! :-)

Could adding a "core" between the windings shape the field and increase coupling? How else could you do directed power transfer / beam forming? What about the power at a multiple of the wavelength at a different node? Could you tap more power from the other side, reflected about the field symmetry line?

Very helpful video. I liked it

❤❤❤ Try wireless Dipole Antenna instead of a circular coil. Saw videos from another channel. Dipole antenna is no affected by distance 😊😊😊😊. Please try on next video😢😢😢❤❤❤❤❤

Loving the New Intro😀😀

Sir I love your videos you are so intelligent and I hope you will be a great scientist one day 👍

Now that's a fancy intro I absolutely love it.

Only Great Scott will take time to investigate something like this on KZbin. As a fellow electronics enthusiast i really appreciate your builds and videos.

Love the new intro!

Thank you very much Best regards from qatar 🇶🇦 It was very useful video.

Thank you very much Scott for your Videos, I really do learn very much! Weiter machen :)

Amazing and satisfying new intro man. Really like it. I liked your previous one as well, but this one is clean and quick and does the job. Like everything you create, really big fan bro and thanks for teaching us so much and abundantly about so many things

New intro is on point.

killing it as always sir thank you so much!!!!

Did you make a video about how semiconductors are made ??

Great vid ! I love it when you do that kind of deeper research, super super interesting. Keep it up !

More videos like this please. This kind of videos that You discover some scientific stuff

If you want to use a higher frequency, reduce the diameter of the coil's windings because that will raise its natural resonance frequency.

Hope this helps me with my wireless project

What about using a conductive material that has high Q at high frequencies? Are there any such conductive materials available?

Change thickness and length Thickness increases and length decreases Make one big and other small

Woah love the new intro

I like your new intro. Didn't hate the old one. Just acknowledging the new one. 😲

Thanks for uploading great content.

Thanks for all your inspirational vids! Now you are at the coil section anyway, maybe it is an interesting project to create an Axial Flow Generator? That would be awesome!

0:28 I see he knows about unforeseen consequences

Thanks for the video on Inductors and charging! I am having a "debate" with some of my EE textbooks... which state that there is a "Back EMF" when charging an Inductor and a "Back EMF" when current is suddenly stopped. I don't have the proper equipment to do the testing but when I tried to look at this using an oscilloscope across the inductor I was not able to see any measurable "back emf" on the inductor when it was charging, but. there was a voltage drop. Perhaps I am doing this wrong? The other thing I don't understand is when I "suddenly cut the power" they call the electricity coming from the Inductor a "Back EMF", but in my testing, the voltage from the Inductor was the same as the source polarity. Perhaps I am doing something wrong?

Although I don't understand it, such great content, just wish your videos were a bit longer honestly, I hear how YT tells creators to keep them short, well I don't think those of us that really enjoy this kind of content care much for shot videos, pack in the details!!! Thanks sir!

Thanl you for this video But what are the details for your last wire that you used? The diameter, number of turns ....

Tesla would be proud!!Only one science in physics and chemistry, it is called ELECTRICAL SCIENCE!!Keep up the good work!!!Never stop experimenting!!!

You should try some more neatly wound coils to reduce the parasitic inductance and increase Q, styles to try include solenoid, pancake, spider, and basket weave.

Great work so far. I’ll bet that flat coils with more surface area would be more efficient. 🤔

Love Your metode

Perfect video, as always :) insightful knowledge

Could you post schematics. I would like to do the numbers. Are you sure it was resonantly tuned? Remember even a led resistance could change the frequency.. What frequency are you using?

Can we try to have compensation circuit for both sides? Or maybe we can try capacitive wireless power transfer next time! My undergraduate thesis is about CPT, and I found that theoretically we can reach about 60%+ at 1MHz frequency at large distances using a double-sided LC compensation circuit .

great tool to have!

Amazing channel!!

Now that looks like a nice LCR meter. Probably costs a pretty penny. Edit: yep. Phew. I mean, it's less than I expected, if I had a good use for it, then it wouldn't be too bad.

Very nice!

Wouldn’t something like an unidirectional antenna transmit energy even more efficiently ?

Is there any data (done by experts or enthousiast) to compare it ? Like what is the more efficient wireless power coil possible, and how exactly ? I'm also thinking that putting a sort of bowl or satellite dish better emitter/receiver could improve a bit more the efficiency !

Did you try to use some ferrite material inside and outside of your 2 coils ? Could they concentrate more of the magnetic field and increase efficiency ?

I like the new intro

The was very good video in youtube by russian scientists by this technology. He used square shape. Thx for your technic and video. Great! ;)

I bought a bunch of pre-made wireless leds and have used several in my action figures as weapons lights or a scale flashlight and in flame effects to illuminate them but i need a much better coil to get some usable range.

With all this experience in winding and testing coil designs, maybe you could review and develop a metal detector design.

Is this RF litz wire with individually isolated thin wires?

I might be too low on caffeine, but I didn't notice any method of impedance matching the load to the receive coil? Seems like measuring the short circuit current of the receive coil would actually decrease the current, lowering the magnetic field, and the breaking down the coupling of the coils. Maybe I didn't follow it exactly.

Would a second receiver influence the amount of energy the first one gets?

Hi, ich habe eine Frage ich habe ein FULL BRIDGE RECTIFIER benutzt um 215vDC zu bekommen und ich wollte fragen ob ich 215vDC an einer Glühbirne benutzen kann und was ich dabei achten muss

Amazing...

Can you please provide detailed information on how you stretched the electron beam horizontally? (Your previous video on turning CRT TV into a crude oscilloscope)

Would there be a legality problem this, as you are effectively running a radio transmitter?

Have you tried a flat spiral coil? That will give you a more cone-shaped EM field instead of the double-hump shaped field emitted by the simple coil.

Nice intro!

Very interesting, I wonder how well silver wire would go.

Starship coils are the best configuration for wireless transmission especially if they are identical resistance

Can you use ne5532 ic in a project?

Excelente! 👍

I got lost at the math equation at 2:30 🤯

I always thought that the inductance is a measure specific to a coil and not varies with frequency. I also used to calculate it with its physical dimensions (length, diameter), number of turns and core permeability. It is new for me that L is different at various frequencies. XL on the other hand (impedance) is related to the frequency. What am I missing?

Nice brother

I did strip out an old anti shoplifting system, which used as coils long lengths of 20mm by 2mm thick aluminium strip, wound into large coils, with an insulating tape layer on the one side of the coil. Self supporting in the case, and the wide strip made for very low loss, though of course the higher capacitance made the self resonant frequency lower. However, seeing as it ran at audio frequencies for the most part, and at around 50W in the transmit coils, this was not too much of a problem. You could simply use a thick self adhesive foam tape on the one side, instead of the thin polyamide they used, and get a much better coil performance. Also wind the coil with a small offset per winding, so they do not fully overlap, so as to have a zig zag strip coil.

There is a winding method for coils often referred to as "fast coil" or basket coil which basically tries to eliminate the parallel strands of wire as much as possible by having them cross at an angle as they are wound on a flat circular form. (2d donut)

what if you use a magnet in the coils? does it change anything ?

What are your thoughts on Helium mining? Great video btw

Very nice, I like the information presented in the video (:

can you please do a review of that elecktor lcr meter? it looks very intriguing.

Amazing Video

Do transformers work on the same principle? Two coils in close proximity of each other?