Best channel out there

For those that don't know both Alan and Wes Hayward W7ZOI who was the guy who did most of the work of "Solid State Design for the Radio Amateur that Alan is referencing here are Tektronix alumni. There are also many other Tek guys who have contributed much to the ham community. I am not an employee or a past employee but was fortunate to spend quite a few years as a ham in the northwest around many of these outstanding amateurs.

I wish i had discovered this channel years ago! Now every evening i am spending my time here ;-)

Very well done. You're a natural educator.

Great job! Clear and concise. I was thinking this was right but you really cleared it up. Have to admit I was not clear, but I've had my ticket since ~1973. 73, AJ4TX

I have that book, bought it new a "while back". ;) Probably in 1990. I had a ton of fun piecing together bits of these circuits to build a 75m receiver on pluggable breadboards. My most advanced piece of test equipment was a Hitachi V-650F.

Someone commented asking about twisting wires vs. not twisting the wires. Twisted wires produce a better transmission line situation where you are using the capacitance between the wires (primary to secondary windings) along with the increased inductance due to the core to produce a transmission line of a certain characteristic impedance. If you separate the primary winding from the secondary winding so that there is essentially zero or very low capacitance between them then you don't have this transmission line situation and the transformer is a "conventional transformer". Transformers with either twisted wires or windings using coax are called "transmission line transformers" and have some subtle differences compared to "conventional transformers". Probably should be the topic of another video!

Clear and concise as always, even after 6 years!

Trying to understand bifilar toroids in joule thief circuits and your clear explanation helped me a lot. Thanks!

Great explanation. If I could take it one step further, however. It should also be noted that the CURRENT in the transformer windings for an ideal transformer goes in the OPPOSITE direction from the voltage. If current is going into the dot on the primary then it will come out of the dot at the secondary. As Alan points out the VOLTAGE behaves oppositly: when the voltage is at it's peak on the primary (say positive) then the voltage will be at a positive peak in the secondary for dots on the same side of the transformer. The current in the secondary produces a magnetic field that tries to buck the magnetic field produced by current in the primary. This is Lenz's law. For an ideal transformer (no leakage inductance) operating with a load on the secondary the net flux in the core is ideally zero. Another way to think about this is think of the secondary winding as a "generator" where voltage is produced with the same polarity as the primary but current direction with respect to the dots is opposite. A generator sends current out and it can only do that if it's output is high when it is sourcing current. These points are subtle and I have not really seen them explained well in textbooks or even ARRL publications. It is key to understanding these kind of circuits however.

Good information and demonstration. Seeing the actual BB wiring and outputs on the scope was a definite plus. Thanks!

Still learning electronics, and You're one of my teachers (as I have no educational electronics background whatsoever). Thanks! Helps a LOT! :)

Thanks Alan, your simple explanation and example for what can be a confusing thing to actually do when building a circuit. 73 - Dino KL0S

Thanks Alan. It's always a pleasure learning from your videos.

excellent as always, thanks you so much. I just want to throw in that the phasing is also important with the transformers in switching power supplies.

Excellent and brilliant explanation... With regards with power transformers. Just by taking 2 separate secondary windings of the same values and hooking them up in series out of phase one could gain a few more volts compared to the 2 same windings in phase. Thumbs up...

Gave the video a like, for some reason there wasn't a mention that included the information that the windings would be in phase if they were on the same side. Thanks, that's a big help.

Very interesting Alan. Clarified something for me. Thanks

Great video as always, Alan! Now I'm finally caught up with watching all your new videos :)

I was just trying to find information on this topic. Perfect timing, and great video as always!

Golden Like!

Thank you for this easy to understand tutorial, informative.

Thanks for uploading such a great source of information. I really like your all your videos and would request for one more on how to build RF coupling transformers for driver and RF power amplifier stages. In addition, could you please demonstrate the difference between RF power transformers and normal coupling transformers. My question specifically relates to impedance matching using very simple techniques.

I came to watch this video having the idea that if you wind a wire in the same direction it would have the same phase (represented by dot convention). But I wanted to know if you wanted your secondary side out of phase would you the wire in the opposite direction. But you just showed connecting the scope at different ends with respect to the other channels will get you 180 out of phase.....this was still a good video for in phase design concept

You the man Allen. Thanks Dave

So educative may God reward you

THANK YOU. Such an easy concept if it is explained properly !!! Wish I could replace my lecturers with you XD

Well done. Was very easy to follow ty

Perhaps some info on leading and lagging voltage and current as per the signal freq. and inductance and capacitance of a transformer might be interesting.

To measure the alloys in transformers, what lab equipment can you use to measure how much Iron, Nickel, metals in the transformer? Some EE techs use a Spectrometer I think. The old radios from 40's and 60's use to call the transformers "radio metal" which means that have 80% percent nickel which I'm not sure why they used so much nickel in radio transformers. The Lamination for the transformers windings was 5/8ths which for any reasons why they used 5/8ths for the lamination on the winding?

Thank you, Very useful, practical and clear.

10.nov-17/ ,,Thanks for fantastic videoes Alan! ,,Both this one and all the others. Nice schematics, explanation-cheets(goodHandwriting. goodDrawings) and good verbaly explaining. Thank you also for often putting in metric dimensions (in adition to USsystem). Very usefull for the 'whole' Tellus/world-community techs and hobbyists. :-) ..Have a nice upcomming weekend for you and all around individs. br, from scandinavia, norway Rolf

When a tube amplifier output transformer is used in correctly but using a speaker impedance that is below the rated impedance will cause the reflection impedance to be doubled. If the output transformers is designed for an 8 ohm speaker load but instead some uses a 4 ohm speaker load the reflected impedance will be doubled which will cause the power tubes impedance to be mismatched with the primary side of the output transformer. This causes an audio volume drop and wattage drop, any reasons why?

Very good video. Nice explanation. Thanks.

Clicked straight on the like button as the answer was on the screen at the very first second (refreshing memory), no need to hear 30 minutes of blah blah like on some other channels;) Shall watch the rest no worries...

W2aew, Older transformers caused HUM issues, any reasons why the transformer itself caused HUM issues ? How do you measure the "Loop Area" of a transformers or a power supply? I'm not sure if linear powers supplies has less of interference issues if there is clock circuits, sync signals, switching circuit next to the linear power supply using an Iron Core transformers compared to a toroidal transformers? The interference issues i'm guessing is called the "loop Area" of the shielding needed around the powers supply so the adjacent circuts like clocks, sync circuits, switching circuits won't get into the power supply circuit.

Howdy. As my college teacher explained: "The current goes in into one dot and comes out from the other dot." Regards.

What does M6 laminates stand for the M6? The winding of the wires "proximity" is either loose or tight, but in transformers specs it doesn't list the wires winding proximity any reasons why? The looser wires winding is LESS inductance mean more high end

Hi, great video. In practical terms if I want to wind a SMPS EE core transformer with same polarity looking in a top view(input in left side and output in right side ) the two coils would have same rotation direction? Thank you very much.

excellent video as always...keep them coming!

How can you test the transformers laminations to know if they are high quality laminations or cheap steel laminations? anyway of testing this or how to measure a transformers eddy current? I'm not sure if a ammeter can be used to test the transformers eddy currents because the higher the eddy current this means that the transformers laminations are cheap steel?

What causes a transformer to get hot after it being turned on? Units that have MOV varistor will be PTC or NTC that are directly sitting on the transformers housing chassis and will shut the unit off when the transformers housing chassis gets to hot. Some MOV varistors that are PTC or NTC are MOV varistor temperature compensation types and other MOV varistors are clamping voltage types. The MOV varistors that are temperature types lay sitting on the transformers housing chassis and will turn off the unit when the transformer gets to hot. But what makes the transformer get to hot because the lamination is weak or the coils are shorted internally?

Could you make a video about the various types of inductors?

The formal dot convention state that each positive current injected into a dotted terminal of a multi-winding coil, will result in a core magnetic flux with the same direction, contributing to the flux buildup. The voltage polarity is just a side effect actually...

7:36 and 7:42 - 'Break out the nail polish and let's get kinky' -Alan

So you're saying if you have an outlet that is wired correctly and have a piece of equipment plugged into the AC outlet and another outlet that is wired reversed polarity and have a piece of equipment plugged into that AC outlet. If you put your hands on both unit metal chassis this can cause a safety problem issues because one chassis is ground while the other is live chassis? I thought they would be both earth grounded regardless of the AC outlet polarity.

May I please ask you about 8:22? As I understand it are all those windings in phase but you have decided to put the ground on opposite sides, and that do put them in 180 deg out of face. Does that mean if I have a transformer where the "dot" is not all in the same side, do I just have to move ground to the opposite side and all of them is now in phase?

Slightly related to this. I have a toroidal with 2 twin wires coming out of it (which i assume are the primary winding terminals) and four thicker gauge wires. How do i figure out what they are without killing myself, my measuring instrument, or both?

YOU FIXED MY RADIO! (maybe, we'll see how long it stays working....)

When visually looking at a transformer or measuring them, how do you know if the transformer is a galvanic isolation? I'm not sure what make a transformer have galvanic isolation. The iron core and wiring wrapped around the bobbin or slug is the transformer part but what is the galvanic isolation part of the transformer to make it galvanic?

If an output transformers secondary winding is rated at 4 ohms load and you put 3.2 ohms which is a mismatch, what will happen to the impedance on the transformers primary and impedance of the output tubes. This mismatch causes a type of distortion from the mismatch. I'm not sure what this is called when you do something like this but it's some type of electronic term.

Thanks Alan, Question will you be able to dive deeper into this topic regarding magnetics BH curve, ferrite material, core losses, wire resistance, frequency response of the material ect.. magnetics is such a miss understood subject.

w2aew, for center tap transformers that use the center tap as the ground, when disconnecting the center tap from ground the other voltages which drift higher or lower. When a 12VAC center tap transformer center cap is disconnected from ground, each side of the transformer will drift higher or lower but will equal to 24VAC. If one side of the transformer lug measured 12VAC referenced to the center tap to ground and the other side measure 12VAC referenced to the center tap to ground that is 24VAC from outside lugs. But when disconnecting the center tap from ground the output lugs will drift higher or lower but will still equal to 24VAC. Any reasons why the output legs will drift higher and lower in voltage and not be "matched" at 12VAC?

hi allan I follow you from France and thanks for your very instructive tuto. Could you please one day make a tuto about the mixing of the voltage.between ac and dc voltage in the same circuits. how it works. The dc voltage supplying the devices and ac voltage coming from the signals are "mixed or added". There are extract after one of the other one and used.Thanks

very informative. One question i would like to add is how to determine the # of windings if its not writtten of specified in the schematic? some do put values while others do not

0:35 Doesn't the Xformer shift the phase 45 degrees since the output is (I believe) the derivative of the input?

So if secondary winding is wind in opposite direction, dot on secondary will be on down side?

awesome video!!! thanks Alan! you are Da go to electronics Guy!!!

When the hot and neutral wires are reversed polarity on the AC outlet why does it cause damage to computerized circuits or digital circuits? the primary of the transformers doesn't care because its an AC signals but I'm guessing the power transformers secondary winding current is flowing in reverse which causes digital circuits and computerized circuits to get damaged or not like it any reasons why? Also older circuits in the 70's and 80's used negative power supplies and positive power supplies in a circuit, but now modern circuits try not to use negative voltages and negative power supplies, any reasons why?

Great explaination. I surely gave it a big LIKE

I wish I could give this ten thumbs up!!!

Does this apply to the secondary winding of a single phase step down transformer. Meaning 1/2 wound one direction to the center tap and the remaining 1/2 wound in the opposite direction. 180 degrees out of phase?

Does the twisting of the wires have any significant impact on performance of transformers or inductors in general ?? - thanks for these basics videos! They are gold nuggets!!

sir may I ask you a somewhat related question? I am wondering if we can connect the primary windings of an audio isolation transformer to the output of a class B direct coupled amplifier and the secondary windings to the speaker? Will the output of the amplifier be affected in a harmful way due to the impedance of the primary transformer? Using a one to one turns ratio.

Very nice channel! Thank you!!!

Wonderful! Thanks for this.

Can you try to make a video lesson on how to use a mega to check the insulation of transformers and motors because the only way to test a transformer of the IFS a partial coils or shorting or there is this like a small internal short not all not a not the whole transformer but just partial shorts because of the insulation a mega will test the insulation voltage if there's something wrong but I don't know how to do it because I don't know what is right and what is wrong and what is considered good and what is considered bad when you have a transformer and you're running both high voltages from it to chest installation to see if there is a partial short

What causes transformer hysteresis? because the transformer hysteresis will cause a voltage drop from primary to secondary, not sure why

Hey-o, How would we do a 90deg phase shift? Is it possible with this? Great videos as always! 73

Thanks Alan, rf balun needs some kind of transformers,if you find time please teach us how to use them.. Kostas - Greece.

Does anybody know the name of that piece he had the coil soldered to?

Electronic Engineers say that Toroidal Transformers have less leakage current, what do you they mean by a transformers having less leakage current? Do they mean from primary to secondary leakage current current? more isolation from primary to secondary?

thank you very much

Yes a big Thankyou w2aew, you certainly put that across well, perfectly understandable, as with all your videos, but most hit really home. boy I needed that Thanks Mate Dennis VK4JDJ

Amazing, Just the output frequency of ch1 ch2 ch3 are different or only phase or shape different?

Thank you for these videos! If the secondary had a load, current would flow out the dot on the positive cycle? Since that winding would be delivering power. Does that sound right?

I never came across those solderable dip things, do you have a good search term for them?

Thank you bro. very useful .

Could you give us a couple (pun painfully intended) examples of why in phase would be desirable, and also out of phase would be desirable in a circuit? For example: an early single ended guitar amp? Thanks Alan! Great video BTW! ;)

Great job...Thank you.

excellent video, thanks for taking the time to create it. WA0YMH

Thumbs up done is the dot symbolized the the starting point of a coil sir is my understanding is right

Great tutorial as always, thank you! A auggwstion concerning the video editing: Could you try a dip-to-white or even a hard cut instead of fading between very similar images? ;-)

3 phase transformers will have 208VAC outputs, its 120VAC +180degrees = 208VAC? The reasons why they used 208VAC instead of 240VAC was that 208VAC produced less heat dissipation and didn't wear out the AC motors in house equipment?

very good thanks alot

Often times a negative feedback comes off a tube output transformer secondary back to the cathode of an input. Get the transformer phase wrong and things don't work as expected!

Thanks

Thanks!

A general rule of thumb is the primary is "always 10X" what the secondary impedance rating is? The output transformer is rated at 4 ohms means the primary is 4ohms X 10 = 40K ohm primary impedance? if you put a 3.2 ohm load that is 3.2ohms X 10 = 32K ohm primary impedance. For amplifiers speaker cabinets if they have 2 speakers at 8 ohms it will be connected for 4 ohms, if you have a speaker cabinet with 3 speakers at 8 ohms it will measure 3.2 ohms. The Mismatching of the 3 speakers at 8 ohms measuring 3.2 ohm impedance while using an output transformer rated at 4 ohms does what you think? It put more of an "impedance load" on the final output power amplifier?

Hello could you test this software? Search androidcircuitsolver on google

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Thanks