The Most Important Circuit for our Electrical Future?! (PFC) EB#55

now it probably has leading power factor in the off duty hours, due to parasitic cable capacitance

@@DrRedstone172 They don't run the synchronous motors all the time. They only need compressed air when the machinery is running. It's also my understanding they can change the exciter voltage to change the lead, but I'm no expert.

@@RedHotFiat i meant the capacitance in the cables

​@RedHotFiat correct, they over excite the rotor which creates a leading power factor. When synchronous motors are used in this way they are called synchronous condensers. But since in your case, they were using them as both motors and condensers they would be considered some sort of hybrid.
Now days there are more efficient methods of producing VARs.

@@RedHotFiat What kind of aircraft parts did they manufacture? Any jet turbine parts?

That probably explains why it was so difficult for me to find a 12V PSU over 5A, because it'd require an expensive compensation circuit.

The lamp has 20W and 4W goes for harmonics.
But you need 100 pieces for the hall.

You are right. I have now dismantled a cheap LED lamp from China, even there is a PFC built in.

But the question remains... who makes 160kvar a month for me!!! If not LEDs, there are still about 15 cameras or forklift chargers from Jungheinrich from 2010...

That explains why any laptop charger I have have PF around 0.48

Thanks for the feedback. I hope the video is worth the topic :-)

@@greatscottlab Id like to see Harmonic Distortion covered in general, and why PFC is now more important than ever, and the very real risks of doing nothing.

;-)

Things like these you shouldn't be talking about😅
Just ignore it

I noticed too

Hope you liked 😏

@@osamashokry4524 lol its funny though :)

@@adeijabari4291 easyEda uses white by default tho, while kiCad & many others use yellowish

He may be using an isolation transformer which could distort the sinewave. Connecting and oscope directly to mains risks a short circuit

@@smeezekitty True - if he uses such a transformer to power the load.
It would probably be better to use it for powering the scope though. Then a much smaller and cheaper transformer could be used as well and any distortion like that shouldn't matter, since it's turned to DC before being used by the circuitry in the scope anyway.
There are some small "pocket models" of scopes that can run on USB. I have one of those. They can measure mains stuff with no issue if powered from an insulated source like a power bank or cell phone charger.
I could think a standard one powered by an insulation transformer would be similar. But maybe some scopes get noise issues if ground is left floating
(and not the best for those who are concerned about safety, since if the scope has a grounded metal casing, it can go live during measurement - but as long as user/casing has no outer grund contact, it will do fine)

​@@Speeder84XL No, the both the primary and secondary windings show the same distorted waveform. Furthermore, my local supply here in South Devon, England varies by a few volts all the time It appears to have a few superimposed frequencies in the range one to three Hz, which I believe are caused by different generators in the supply network interacting with each other. A big driver of this is the diminishing amount of heavy rotating generators as they are replaced by solar panels. There is also a lot of high frequency noise from invertors and switch mode power supplies. It's a mess! (Just building a stabilised power supply before I resume my tube amp experiments.)

What? Mains rms voltage dropping? I just have a variable transformer and turn it up if the voltage sags. Problem solved! /s

it is funny

Sounds like most engineering students I knew. Wonder why they needed to learn so much math to write emails. XD

That's an easy trap to fall into. A lot of the business types focus on the things they understand - business development, proposals, project management - and forget that once you've gotten that nice, shiny contract someone has to do the technical work.
There's definitely a place for technical-oriented engineers, but you have to push for that position. I did (I'm an integrator/system analyst, not an engineer, but it's similar), and now I only work on the type of stuff I want instead of writing documents and tracking lead times all day.

​@Jeff Spaulding GREAT
Enjoy your work!
That's why I wanted to become an engineer. Unfortunately the business brains taking so much demand that only low time is left for engineering.
I decided also not to be too far away from technology.

Lots of people are interested in science. You just have to pack it up in an interesting video format ;-)

@@greatscottlab It's not just the format, it's the attention to detail and the tangible examples. Your drawings are absolutely first class, I daresay you'd be able to outdraw most pen plotters!

Probably not. dimabble led has microcontroller, who decect how mant sinusoid us cut by triac.

@@wojciechbajon Probably not. Many good quality LED bulbs has microcontroller. Who decect how mant triac harmonic mains down PFC

Most do not. The regulation governing low power bulbs has been made in cooperation with the bulb manufacturers. This means that PFC is only required at higher wattage than those most common. As the limit is lowered, so does the power of the bulbs. Currently I think it is around 15 W, which is why manufacturers do not make bulbs above 14 W.🤑🎉

@@NightHound1337 Most do not. The limit is lowered governing low power only required at higher wattage then I think it is around 15w this means that the PFC is only those most common

@@NightHound1337 WTF
Instead of having better products, we get capped ones

I use those adapters on my (string of) solar panels. Works great! 230 Volt is more than enough. When the grid goes down, adapters help me to generate energy locally.

I bet you, even professors can't afford to post in/on RUclips.

I wasted 20 years of my life paying my own electricity bills without knowing what PFC actually is and why it is important.. this is the first video I've seen that actually explains it so that I understand it. This german is an international treasure and should be honored somehow. The EU should give out grants for science and technology educators like this!

​@@hvanmegen As a private consumer, you only pay for the real power, so adding PFCs won't save you on the electricity bill. Your electricity provider will probably like you though.

But we need something to use,, e.g. PCB and SW for 2-phase BUCK, BOOST MPPT, or sinus 50 Hz 240 V / 40 AMPS inverter / HF or LF /

Interesting

Passive pfc's are ok for light loads..where the pcb/component area is not a constraint..since all components required are to function at i/p DC rectified ripple frequency 2×(50/60Hz) hence it becomes bulky although NO BULK CAPACITORS ARE USED.. ......typically single stage is most common a single stage is usually 3 diodes, 2 caps. & 1or 2 inductors ( but 2 & 3 stage are designed..3 stage design reduces p-p ripple to about 30%...also has higher ripple frequency. so dc is good.

Single stage passive pfc's had widespread use in C.FL.'s with ratings up to 20-25 W.

AAAAhhhhhh! so that's what that honking big ass coil is for in the power supply units!!!! 🤗thank you kind man for sharing your wisdom.
And big thanks to Scott for lovely electronics lessons!

​@@ogi22 thats not what they are used for most of the time

Hope you like it!

Basically rectifier-> DC-DC converter with a transformer. You should not think of it as PFC or whatever sh*t, just a pwm variable input DC-DC converter, by modulating the frequency you can get a needed current "draw"..
Or 2-channel DC-DC converter.

I used to work for a company installing pfc equipment in my local steel works on motor drives etc, we never used the dc method didnt even have pwm supplys back then we just got the the current and voltage close as we could for the induction motors to prrrr.

@@ianhill20101 For consumer electronics AC/DC - DC converters with PWM regulation are more efficient. The older stabilizers back from 1970th are consuming extra power for their own operation.

​@@trevoro.9731 What are you talking about? In the standard boost PFC, which I think is shown in the video, there is no transformer

Y.T. vids. with detailed PFC explaination show beer/ foam ratio analogy.

It really is!

I just looked up the price and decided I’ll just admire yours from a distance 😅

@@pjsmith6954 lol i thought it'd be like $500-1000. but nope, $18 grand, jesus.

The price hurts my feelings. 😅

Thank you very much for the feedback and support :-)

Thanks for the feedback. Good information about the skyscraper.

I've seen a few manufacturers rate supplies for DC and 400Hz operation. It's rare but lets you run in spec with high voltage DC.

On the other hand in order to deal with the current peaks you get when running on normal AC the diodes need to be oversized.

This issue became a big thing when computers first started hitting desktops in large office environments. There were instances of neutral cables actually getting hot enough to burn off their insulation. This is due to the fact that the narrow current pulses that result from simple rectification and capacitive filtering, as shown in the video, don't cancel in three-phase systems and instead almost 100% of the current would flow in the neutral contuctor - six non-overlapping pulses per cycle.
A lot of this was blamed on the use of switched mode power supplies, but any capcitively filtered rectifier circuit is just about as bad. Iron core transformers do slightly knock down the current peaks due to leakage inductance, but not in a very useful way. It was mostly just the fact that switchers were used in most of the devices installed when use of electronics in offices exploded.

​@@d614gakadoug9
newer computers use less power these days because the cpus are faster than a person needs

Switching power supplies are the ones with this current waveform. Older type power supplies with a 50Hz mains transformer have power factor of 0.9 or so, no problem there. In addition, they are simpler to repair and a capacitor failure is not so destructive. However, they are bigger.

@@tripplefives1402 I tried measuring the power factor of my vacuum tube receiver. The power factor initially was something like 0.95, then dropped to 0.87 or something like that once the tubes started conducting. The receiver does not have a filter choke, just two silicon diodes arranged as a voltage doubler.
Another device I tried is a VTVM. It has a tube rectifier for B+, no choke and some of the tube filaments are DC (selenium rectifier).
Instantly after turn on, it uses 52W, 0.97PF, then it drops to 30W 0.96 and once tubes warm up the power goes up to 54W and power factor to 0.92.
Maybe the inductance or the resistance of the transformer helps smooth it out. I have seen DC chokes only on some tube radios (in some cases they use the output transformer as a choke), most devices do not have one and there was no problem with power factor until switching power supplies became prevalent.

@@saiv46 high power ATX12VO with separated DC2DC converter for another voltages (3v,5v,-5v,-12v) sounds good..

​@@saiv46 If you're looking at using a consumer computer power supply for just one voltage, it probably isn't for a project that is on frequently at all. For these temporary projects, the extra useful but immediately unused voltages really aren't a concern. A 12VO PSU would then need subsequent voltage modulating circuitry. Like buck/boost converters. With a current standard ATX PSU, and DIY projects, you're pretty likely to have use for 3.3 VDC, and 5 VDC on top of the 12 VDC. Those other circuits add complexity outside of the PSU and are likely not as high quality and clean as the ones in an ATX PSU.

Cheap ATX PSU very simple like this 12V PSU. They are no contains PFC.

@@saiv46 Pray they never do. 12vo is going to be a nightmare of proprietary cabling on both the psu and mobo side of things as well as offloading an enormous amount of voltage switching to one of the most expensive and least reliable parts of your computer.

@@saiv46 because moving all the other power rails directly to the mobo you have to replace every time you upgrade is a great idea.

True. Nowadays pretty much mandatory above 100 to 150W I think.

it became a regulation in the 90s when businesses were running hundreds of 300w tower PC in one location

@@greatscottlab the addition of PFC circuits was especially important for large data centers. In the early days of Google our servers didn't have PFC circuits which was fine when you didn't have many. We quickly learned the importance of PFC when we started building clusters with 1000+ servers. Without PFC we would run out of power capacity. PF on average was close to 0.6. Later server designs required a minimum PF of 0.9. Now a days most servers have a PF of 0.96 to 1.0. PFC circuits have become extremely important and have come a long way.

Another thing to mention is that bad PF leads to heating and premature wear of upstream transformers. Power companies benefit from good consumers of power.

This totally depends on the standard requirements.
E.g. IEC61000-3-2 for single phase devices or -12 for three phase devices.
Only the cheapest solution to keep it will be implemented.
In the lower power range mainly passive PFCs are used. Just shaping the current as little as necessary.
Money rules, not the technical best solution.

he didn't made that analogy, its an already old one

Haha yes. Pretty famous one. Usually beer is used for that.

@@greatscottlab Well, thats the first time i heard that,

True

We have a building with 30 LED lights and I can't get a UPS to act as a mains fail backup on it. Did when the LEDs and UPS were new but I think the LED's power factor has deteriorated with age so the UPS can't cope with them now.

@@hoverbovver interesting also since it is LEDS maybe a more DC solution is better?

75W and above requires PF 0.9 or better. Under 75W 0.5 or better. What we learn from this - don't buy crap 😂

Thanks. My first basics video was actually about Multimeters. Not sure if I will do another one.

@@greatscottlab Do a poll on RUclips 😀

Not necessarily. It will limit the current to the current needed for the bulb, it is very similar to just putting a resistor in series.

@@conorstewart2214 Not necessarily to put bulb?! It not necessarily till your circuit will explode one time.
And resistor isn't similar, it got fixed resistance. Bulb have changeable non-linear resistance.
Also resistor not will show you if your scheme is workable or not.

@@Anatoli-y you misunderstood what I said. The bulb will not necessarily prevent the circuit from exploding. The bulbs resistance does change but it is still just a resistor and there are other ways of seeing if the circuit works other than just a bulb lighting up, all that means is there is power flowing, not that the circuit is working.

@@conorstewart2214 It will prevent from a huge explosion and destruction on pcb from AC current. You also misunderstood what I said, it will show you that a pcb(device) is not short circuit. I use this method for a long time and its work perfectly.
And what other ways?

Un Compensated Reactive loads cause the havoc...pwm has no direct impact on pfc.

I can put it on my to do list

Antenna design is kind of an art. There's some theories out there. They kind of work.
There are two things about antennas. First is that all objects have an inductance and capacitance (which is what an antenna is). Length of an antenna corresponds to a value of inductance and capacitance. This also gets into wavelength. All of these factors become inter-related and everything becomes proportional to 1/4 of the wavelength (rise to peak, drop to zero, drop to trough, rise to zero in a sinusoid). It... is and isn't complicated. You're charging an extremely small capacitor that discharges across the inductance of itself, forming a tiny tank circuit. Because all of this corresponds to distance, you can get weird phenomena like reflections (you can "kink" high frequency electricity like you would a garden hose), standing waves (why putting metal in a microwave leads to arcing), etc.
The second thing is that stripline works by preserving the symmetry of transverse modes... while microstrip makes a great antenna because it does away with said symmetry.
To my knowledge, there is not, as of yet, a "theory of everything" for the electromagnetic spectrum. When does a tank circuit couple fields versus produce photons... and is it photons mediating between the coils of transformers?

@GreatScott! I wonder how long that list is 🤔

@@Aim54Delta ah, thank you for your information

@@ZipZash
en.m.wikipedia.org/wiki/Inverted-F_antenna#Planar_implementation
Wikipedia has some information on them that could help.
A lot of it is going to depend on the band you are using.
We are ... going to be getting into some weird times with regards to governments and regulations. I have an SDR module on the way from an open source project that ... isn't too much different from the ELINT packages used by the military. I can arbitrarily pick a frequency and protocol, define a new protocol, etc. It's the "warning, you may violate laws by not knowing what you're doing" version.
Granted, I know what I am doing and that is why I got the one that allows me to operate without constraints - but we are getting into a time when, even if the laws are being broken by the public, it's difficult to see how enforcement would be at all practical.
I can troll an EA-18G with a $150 setup. Trampling the FCC with some pi picos and bent wire is almost an inevitable thing should something useful be found within a domain afoul the law.

Oh stop it ;-)

sorry no disrespect to him or anything, but, funny?

Yep. That is a kind of passive PFC. Measuring the phase shift and then adding caps accordingly.

And the reason this isn't done at the powerstation itself is because that would still require thicker wires to carry higher current?

@@greatscottlab Sweet, and the question I was getting at was if they accomplished the same thing? Specifically in regard to the precision, I guess devices with built in PFC act as scalpels on larger systems.

3 phase capacitor banks with current limiting inductors switched in & out of circuit as required...
Early days it was with relay logic..
Later on through Z.C.D. THYRISTORS.
Then phase control Thyristors replaced them ..( precise control of current is difficult in above cases)
Nowadays same is done with SERIES BACK TO BACK I.G.B.T.'s with full pwm & current control...
Each capacitor bankwas built up of 3 or more sub banks where each sub bank have different bulk capacitance....so different values can be selected as per demand.

Another reason is attempting to achieve equal load distribution of
all 3 phases...active P.F.compensation does this..but other issues are to be considered...line harmonics..so harmonic filters are used..(active/ passive) also if such need them across lines or in series or both..
Neutral current monitoring / reduction & weather system requires
floating or neutral point clamping..all involve deep practice & understanding of power distribution systems.

Tesla won the current wars because of transformers. In the time of Tesla and Edison, the only way to convert between voltages, was to use transformers and AC power. Edison's DC system wouldn't efficiently transmit power over long distances, since it was limited to the voltage at generation, and the voltage people would use in their homes.
The DC:DC converter wouldn't be invented until the 1950's. Had it existed in Tesla and Edison's time, we could've had DC distribution.

@@carultch yupp but both ac and dc have their pros and cons so both are useful in certain places. @Electroboom even maided a detailed video on this topic.

Much of the math is literally identical across many fields because of physics fundamentals. For example the 2nd order differential equation to model a flywheel and a spring is the same as an inductor and capacitor. If you know how a hammer works you can intuitively understand what happens when you suddenly stop current in an inductor.

Yeah I know a dude who designs subwoofer enclosures based off math from circuit design , uses capacitive reactance, etc.. idk too much for my brain to understand

We will never know ;-)

@@greatscottlab 😅😂🤣😅😂🤣😅😂🤣😅😂🤣😅😂🤣😅😂🤣
Thankfully, we don't have Smellivision!
LOL

Depends on the load of course. But yes. I does decrease the efficiency of the power supply by a couple of %.

It should be specified in the manufacturer specifications(they usually tell you the min power factor) or you can test it, or you can see the components inside.

Oftentimes you can't without testing. An exception is that if a power supply has an input voltage selection switch it is nearly guaranteed to lack active PFC.

Not me

Ups

Haha. It happens ;-)

@@greatscottlab A Real Ripper ruclips.net/video/U5cqrrhq9TA/видео.html

Real profesionals use rubber mat whit spacers 😂

Last I checked, wood is an excellent insulator. Who tf cares? Talk about picking nits

Awesome. Glad you like their stuff as well.