I know this will probably get lost in the comments but I have to say it. I absolutely have a high respect for people like you who share knowledge so freely and willingly. People like you are a godsend. Thank you sincerely.

Six years later, this is still the best and most understandable intro to Op Amps ever.

this video got me my first electronic job i watched this video before my interview and they quizzed me on op amps! the luck!

As a retired Senior Applications Engineer at Burr-Brown and Texas Instruments, I must compliment you on this presentation! It is very similar to the "factory" technical presentations that we used to give to audiences around the globe. The technical level is just right, not to basic and not too advanced. Good job! To be a good teacher it takes far more than just knowledge of the subject. A teacher's job is to impart knowledge to his student; if the student doesn't understand, the teacher is not doing his job. Some PhDs can teach, others can't- Richard Feynman was an example of a fellow who not only thoroughly understood his subject but who could teach it as well.... and do it in an interesting and entertaining manner.

I Learned more in 10 min of your video than 1 month of my Power Control Electronics class. Thank you!!!!!

"The gain is almost infinite" spoken like a true engineer!

5.300 students are very grateful you uploaded this video

In my whole electronics major shit , I have never seen a person who explains virtual ground like this. #RESPECT

Eight years later, this is still the best and most understandable intro to Op Amps ever.

what makes you a gorgeous teacher is that you not only talk about what is going on but also about what the follower might think is going on but actually is not and why. i had so many frustrating experiences in the past because of teachers that did'nt care about that. i truly love your lessons.

I find myself revisiting this tutorial as a refresher every time I need to incorporate an OpAmp into one of my projects. Thanks Dave! 👍🏻

Regarding the puzzle at the end, the low resistance effect is an increased current at the OA output. the OA at approximately Vout= -0.5V should sink 50uA which is higher than the value in the datasheet/figure13 of 30uA max. so the virtual ground voltage fluctuates and so does the output at approx. -0.5V.

Been a tech for 43 years and I have never seen it explained so concise. Thanks and I am turning the junior techs onto this video. Cheers!

The fact we can learn this and not have to go into debt... your a gift to engineering Dave!

Interestingly I just recently recommended someone to look into using an opamp for their project... EEVblog never disappoints.

Very helpful. I'm an electronics technician and you see this stuff when you're doing repairs or troubleshooting but you never get down to the nitty gritty details especially after 30+ or so years goes by from your initial electronics training so it was really nice of you to explain this especially on layman's terms. Someone else mentioned in this blog about cutting and pasting working circuits into projects and calculating as you went along to fit your needs which is pretty much what I've done in the past so this has really been a BIG help in the memory refresh department. Thank you ten times over and may the "electro" Gods shine good fortune down upon you sir!

Hi dave I've been watching your channel a lot for the last couple years now and it's fantastic! I'm currently doing my honors in electronics engineering and my University here in hamilton New Zealand has instructed my class to watch this video on the current section we are covering on op-amps. You have finally made it to university level teaching my friend!

Watched this 6 years ago as a teenage geek. Learned a lot. Now I rewatch as a 3rd year university student. Still useful. Gonna pass the exam today

Sir, I believe you have just saved my grade for this semester. Thank you

If anyone is interested the gain of the non-inverting config can be derived from the voltage divider equation: Vin = Vout*R1/(R1+Rf) Vin/Vout = R1/(R1+Rf) Vout/Vin = (R1+Rf)/R1 Vout/Vin = 1+Rf/R1 And the gain of the inverting config can be found from the currents: I(Rf) = Vout/Rf I(R1) = -Vin/R1 -> Current through both resistors is equal so... -Vin/R1 = Vout/Rf Vout/Vin = -Rf/R1 :)

FINALLY!!!! A video that ACTUALLY EXPLAINS HOW IT WORKS!!!!! Dave, this video was a godsend.

7 years on and your videos are still helping new technicians. I really appreciate this, thank you.

Most excellent basic introduction to op-amps I know of. It tells you everything you need to know about fundamental operations of op-amps to get you on your way to understanding more complex circuits.

Read this after 12:23 and listen to buffer amplifier again. The primary objective of buffer circuit is to boost the current in any circuit at any stage. Buffer circuits are mainly used where a signal has very low current input(high input impedance) which needs to be increased maintaining the same voltage levels. So, this buffer circuits draws current from power source and adds it to the signal. Buffer amp is also called as voltage follower or unity gain amplifier . Hope this makes sense now !

This is my new favorite KZbin channel!!! I am a marine engineer by trade, but I started getting bored, so I signed up for an online electronic engineering programme at my local university, to put my spare time into good use. I have never gained much from sitting in a classroom listening to a lecturer bleating for two hours at a blackboard, so I was thrilled, when I got the opportunity to work at getting a degree, working by myself at home. These videos are an absolutely excellent supplement to all the videos available from my university. Thank you!!!

When I learned how to use Op-Amps, the 741 was the state of the art at the time. Yes, had to learn them the hard way back in those days. What a great refresher course for this young man born 9-11-1946. Great job Dave and thank you. Respectfully, Steve

It's so great to see fellow Australians showing up on KZbin. Especially for something like explaining electricity. Bringing fame and reputation to our country!

You have left a legacy on KZbin for the coming generations. You are immortal. Salutes.

I am in my senior year for EE and we had a whole 8 weeks in one of my circuit theory classes dedicated solely to op amps. We got to delve deep into these and do some really fun design problems and lab experiments. This video really is a great refresher and good start for anyone new to them.

Thumbs-up for the vid on properly terminating op-amps please Dave ;)

Truly one of the best reviews of OP Amps. This validates everything I have learned about OP Amps. -Thanks

I spent few years in school to learn this (hundreds of years ago) but no teacher was able to present it so clearly like you did - thank you bro

Some people really got the "art of sincere teaching". This is the best I've seen so far regarding Op amp basics. God bless you Sir.

One of the most sensible ways of explaining the basics of op amps. Great work Dave

Never gave money to a KZbinr ever, until now. Started this hobby six months ago. Tried to make a little lab myself but made mistakes. Then I watched your video on how to start an electronics lab. Followed your advice and now everything is set up and working perfectly. makes it so much easier! My learning curve has advanced leaps and bounds. Cant thank you enough.

Dave, this is amazing. Thank you for these mini classes, honestly it’s worth more than any electronics class I ever paid for. Negative feedback op-amps just clicked into place for me about 10 minutes in. I had been struggling with this concept for days. Thank you so much.

Excellent discussion. Takes me back 35 years to my intro to op-amps. My professor explained what was to us an amazing and confusion subject just as you did and within a day or so we couldn't wait for the lab. I'm now hooked on your channel. atb Opal

Your video is gold. I modeled both inv amp and non-inv amp in LTspice with MAX4352 op-amp. Input voltage: [0,0.5] volts. Vcc:+5v, Vee: GND. Worked perfect. Thanks for your work!

If my college lecturer in the 1970s in England had been just half as good as explaining things as you, I could have saved myself 40 years of stress thinking that I was an idiot. Keep up the excellent work, you obviously love passing on your knowledge and are brilliant at doing it. I am now totaly gripped.

Thanks for doing teaching vids, Dave! I took many electrical engineering courses in college and we did a lot with op-amps, but I'm embarrassed to admit I've completely forgotten everything about them since then. These practical introduction videos are perfect for people like me who want to reconnect to something we learned in the past. Thanks again!

The concept of virtual ground was delivered precisely. Thank you Dave!!!!

This explanation is superb! It is THE best I've ever seen from any book or professor. Truly, a gold nugget.

as an electrical engineering student, this channel is priceless. thank you for this channel and to so many other folks who do the same...

tonight i learned 10x more about op-amps, and with a deeper understanding, than i did in a whole semester in a suffocating classroom. Thank you for your time.

If only I had the opportunity to watch this when I was learning about OpAmps some decades ago ! So much simpler to understand with you, Dave !

Excellent video Dave! Concerning the puzzle on the end. I think it's the reduced current sinking capabilities of the LM358 when Vout is small in respect to ground. If look up the "Output Characteristics Current Sinking" graph in the datasheet you can see that the LM358 can sink very little current at low output voltages. As you have a 1k R1 and 2Vpp input voltage you have 2mApp of current, which is still too much to sink for the LM358 at low output voltages. So the LM358 can't keep the virtual ground equal with the "real" ground trough it's FB network. Therefore you get those spikes and the sagging and rising of the virtual ground in between.

I have been watching this as a kid and now it feels so nostalgic after i have passed my electronics engineering school , it really so nostalgic

This video got me a job as a tech earlier this year. I spent so much time reading different articles about it and struggled to wrap my head around it. In the interview they had a worksheet with ohms law voltage divers etc and then in the verbal portion he brought up op amps. I just started talking and after a bit he smiled and I knew I was hired. Thanks Dave!

BINGO!!!! Suddenly it came clear at about 10:00 how simple it is to use these devices! I have a compartment in my component collection of OpAmps that I purchased for a device I needed to build, and as you know, you can hardly buy just one, so, of course, I purchased 10, and promptly forgot what I purchased them for, because the order came in from China about 35 days after I placed it, and the notion of what I was building had been replaced by something else completely, so I have all these OpAmps and nothing to do with them. Thankfully I came across your video, so I may well begin to play with them when I get back from our Winter quarters in Arizona and return to my home in South Dakota, where they are under a full fledged blizzard warning as I type, and here in Arizona, we are under a wind warning with the temps at 65 degrees F. Oh what a difference some 1500 miles can make!

Well, I secured more marks than my friends in our exam just by watching this video 2 hour prior to my exam. Thanks Dave.

You are really great at this. I'm in a 3rd semester EET student and I learned a thing or two about op-amps from you. I should be paying you tuition!

I love you. You should have been my EE professor for every class at my uni

Took years to comprehend this stuff. Especially when it came to more complex circuitry and control of DC motors from controlling speed, current, volts, positioning, etc. Great video and spot on! Thanks

Even after 30 years away from electronics I got the gist of you lesson, thanks you explain it very well and in manner I just love. I worked in the dept of Navy as a trainee and we had two parts, one was a TAFE course the other was direct from Naval lecturers. The naval lecturers were like you extremely conversant and able to explain in a much more understandable manner.

Great explanations. I used OpAmps before, but more copy-and-paste style, just using the standard circuits without thinking about it. Now it makes sense why it works, and with the two rules I might even create equations to analyze more complex circuits, like the differential amplifier, where you've lost me a bit.

i'm literally crying, thank you so much. my physics midterm is tomorrow and i truly thought i was screwed. but now i think i can save my grade, subscribed x

Back in May of 1978 I started work at an aerospace company that made the engine controllers for a military jet aircraft. The engine controller was a low frequency (less than 10 KHz) precision analogue computer that had amplifier gains & offsets calibrated to +/- 2 mV with select on test 1% tolerance resistors. Some critical circuits in the controller used 0.1% tolerance resistors. Positive 10 V and negative 10 V references were used throughout, and as well as the usual feedback loop components there were two 10.6 V Zener diodes in each loop. All of the virtual earths were connected to a virtual earth monitor that used a high gain amplifier to indicate any opamp failures. After a few years the engine controller was redesigned around 12 MHz 16 bit microprocessors and was considered to be not as good as the analogue version because at full speed the aircraft would travel about 50 feet before the software loop was reiterated. Some of the circuitry in the analogue version was very unusual and complex and I learned a lot about circuit design with opamps. It was a great place to work because there were occasions when batches of high grade components were thrown into a skip, and the company didn't care where they went. To this day I have a huge stock of mostly obsolete but still useful components that I use for making projects and stuff that can't be purchased off the shelf. Thanks for the video.

You are a brilliant teacher. Your ability to explain these concepts in an easily understood and straightforward way is a precious gift. I say this as someone who, many many decades ago, struggled as a student trying to understand so many instructors who did not have the ability to convey their knowledge to their students.

Someone in my class has been spreading around this video to everyone and they're all raving about how useful your video is.

i always catch myself smiling while watching this guy

Hi Dave, Please do a video on how to terminate OP-AMP, it's an important topic as well. Good job, thank you.

Yeah! perfect explanation about virtual ground. Thanks Dave!

This brings back memories. I learned all this in studying for by BSEE degree that I got in 1976. I have no idea why KZbin sent me here. The last video I watched was on modeling an MOV surge protector in LTSpice. I dozed off and wound up here. Back in 1976 we had a saying: *_”Four years ago I couldn’t spell ‘injuneer’ and now I are one!”_*

This video literaly saved me :), right now in the university everything is going on-line and some teacher are just an assholes that don't care if we are learning with this new method and I mean, there is this one teacher that literaly send us to read a book and that´s it, nothing more, and well, I think this is the best class about op amps I have right now. Thank you so much

Love these. More, please. I've been using Op Amps and Comparators for decades and still learned a couple tricks watching this video!

Yes for an op-amp terminating video.

Wow, huge thanks for a crystal clear explaination! I have watched several other videos where others tried to show how awesome opamps are and after those videos I became more confused. At last, thanks to your awesome video I understand what it is and how I can use them. Awesome Dave, it´s like christmas following your videos.

You have succeeded where hours of instruction and study have failed: making me understand how opamps work. I am unable to express my gratitude.

Whatever haven't tought for x amount of reasons eg lack of access to higher education, means of funds, have a chance to broaden my knowledge and horizons thanks to you and a few other persons like you. A huge thank you is certainly not enough.

This video made everyone think I'm a genius when we were taught this in class!

Great explanation, you just took the best OP-Amp explanation until now from:YT- John Santiago Op Amp Design Basics - Inverting Amplifier - Part 3 (i was actually wondering when you will do that 8-). While you mentioned ohm's law you might add Kirchhoff circuit law in the part where you "wonder" about where current goes and that lack of minus in inv. OP gain formula was bugging me until you corrected it... For the end, you put smaller resistor which drives 10x larger current form output trough feedback resistor to "match/counter" input current (100uAmpsp rise into 1mAp) so output stage switches into B class (whole chip with 2xOPAmps has less then 1mA quiescent current and output stage probably uses about 70% of that) and you see clear crossover distortion on the output waveform (where OP-Amp loses control hence the spikes on the input, you can represent that as vehicle steering wheel dead play for mechanical types) Great video, just took best opamp explanation title,cant wait for #2,3,....

What the hell just happened? I felt like I had watched a 10 min video. By the time I looked at the time line, 49 minutes had already passed. Magic OOOOoooooo. XD

Dave, though i've never met you or even had a two-way communication with you i do see you as my friend and tutor. Maybe it's simply because you come across as a really nice guy in your vblog, and i've seen so much of your face and so much appreciate your educational skills. Maybe it's becuse with you as my major source of education i've had the best grades in every course i've taken over the last 18 months, spending close to no time at all studying, giving me time to earn some well needed cash for equipment, working as a private tutor for other students, and that was not even deliberate. I was approached by peers who wanted tutoring and insisted on paying me for it, reasoning that their parents were prepared to pay the tripple amount to an actual professor who would no likely be any better than any of our own teachers, working out of the same curriculum, and that they knew from class that they understood me way better than any teacher. Because every teacher we've ever had can take hours trying to explain these concepts to no avail, but using sometimes slightly modified (just enough to fit exactly the concept we're studying and the specific questions the sometimes slighly slow teacher wants answered at that moment) versions of what you've taught me i can explain concepts so that my peers understand them well enough to get at least a C in a matter of a few sentences. No matter what knowledge gaps my teachers have left behind i can fill them in, in a matter of minutes and almost never having to explain something twice to anyone, ever, using your pedagogic models! 9/10 times when i explain something the answer is something like "Ahaaa! Oh my god i feel so dumb, it's not even that complicated!" A lot of people don't appeciate the fact that the ability to understand something better than others, doesn't magically give you the ability to describe it in a way so that those that don't understand it can also do so! It's not just that i have complete confidence in the quality of the information you provide, it's your ability to explain thing that would have taken me hours or days to figure out, if at all, in a matter of seconds or minutes. In fact the service you provide me, absolutely for free, saves me so much time (generally in between 10-20 hours a week in school. Is this even real?!!!!! o____0 ) since i don't have to study anymore to get top grades and not be the teacher's pet but rather his assistant! So... The fact of the matter Dave, is that i basically owe you roughly 17% of my total spare time, weekends included! Those are 17% of the part of my life that i get to spend as my heart desires. And i simply just can't thank you for that in writing, because whatever words i chose would be an insult to your genius! But still, i do have to say something so a simpler thank you will have to suffice. Thank you professor Dave, thank you so very very much! The quality of the service you provide is in my experience unprecedented in any and all forums from the web to actual traditional education in a "real" school. I hope that you love doing what you're doing as much as i love watching you do it, and that you will keep doing this for a long, long time! Your devoted fan and pupil, Fredrik Sjöblom, Stockholm, Sweden.

We're moving into Op-Amps in my 2nd year circuits class, and I've already gone through 3 shorter "intro to op amps / op amp basics" videos with high view counts and all of them were rubbish in terms of being "basic introductions". This 50 minute video is already vastly superior in presenting the fundamentals clearly and simply in the first 5 minutes. Happy to have found it!

This was the Video that made me fall in love with electronics! What an awesome tutorial !!

good ol crossover-distortion. the LM358 has a class-B output stage and has to be biased properly or you get crossover distortion. instead of having diodes in the output stage, they tied the bases together. They were designed to be low power, so they did this. a proper load resistor between the output and negative supply will fix this problem. decreasing the feedback resistors increase the load by decreasing the overall impedance to the "virtual-ground", causing more and more crossover distortion. There is a tradeoff, by putting a resistor in the output stage to -ve, you also get a much higher idle current. Much more than of a standard class-ab op-amp. So that blows the "low-power" rating into the rubbish bin. Edited as my first couple attempts didnt sound, or come out right.

I wish you could do one like this for transistors!

this video (as old as it is) really helped my early on while studying my degree, then even now years later i watched it day before i went into the job interview of my dreams, and it may well have been the contributing factor that landed me the job. so a huuuuge thanks.

I studied and played around with this stuff over 40 years ago, it's quite refreshing watching these videos. I went into digital for many years practically ignoring analog. Thank you Dave.

This is the best explanation I've seen on the virtual ground. Nice! P.S: Next time, please consider giving an intro to DSPs, would be awesome!

Happy 600th EEVBlog Dave!

And now we need a second part, where you show us the non-common circuits, as let say...Gyrator-stuff, Log-converters, average/peak rectifiers, and "interferences" when using OpAmps in RF circuits (like input pin reversion)....;)

After every explanation I had more questions than before. A dramatizing entertaining style doesnt replace good teaching.

Ohmygosh, is that really it? You just compressed my college circuits II class into a 50 minute video! Thanks for the simplification!

For the love of Tesla, I was so friggin' nervous when you forgot the 'negative' of inverting gain!

Hey Dave, can your next video be on the stuff you crossed out? I wanted to cry there for a sec. There are tons and tons of resources about the basics of op amps, there a dime a dozen. However, there are very very few complete videos on op amp internals. Finding videos on the basics is utterly simple but finding well presented videos on more advance material such as op amp internals is painfully difficult.

I spent 10 minutes waiting to see a correction for the inverting op amp, didn't want to comment too soon but finally my mind is at rest :)

This video contains more information than half of semester of electronics on my university and thanks to it I have maxed one of two tests required to complete the course in about 20 minutes

First theory then practical implementation with real equipments, and all in 50 minutes... thanks Dave for your time.

This guy taught me what I couldn't understand in my class even after discussing with 3 professors😂😂

Thank you Dave! This video has saved me headaches on multiple occasions. Everything is so well explained. I keep coming back to it for reference.

You just solved my question for a project.. there we go.. another step forward.

Thanks to you, and your videos I am today a successful engineer working in semiconductor industry. I am just coming back, years after I watched this video for the first time. I was having problems passing the only one remaining subject to get my degree and was searching for a helpful video on opamps. Not only you helped me, but also inspired me with your positive personality! Keep up the good work!

8 yrs passed till now , I never had seen such an video anywhere , It's Awesome really cool.

The things that were written on the board at the starting is exactly what my university wants me to learn

you should be teaching university. that was better than any of my professors ever thought it.

Do you have a t-shirt for every electronics component? :D But seriously, thumbs up for the simple and straight-to-the-point explanations. I am a programmer who sometimes has to deal with electronics. If I take some classical electronics book, it is all over with formulas, math and what not, when all I actually need is just basic understanding how to build or troubleshoot some circuit. The same problem goes also with mathematicians. For example, on some forum I asked how to use some specific function from a really popular FFT library to calculate coefficients for FIR filter, and math gurus threw lots of formulas on me and no-one could tell me that I need just two code lines to correctly feed FFT data and then add an offset. I spent two days with Matlab to find out that I needed that damned offset to get the right data out, and no-one could tell me such a basic thing! So thanks again for your work to make things simple for us, beginners and hobbyists.

was'nt too sure at first about the teaching style but after a few moments. lights were going grower much brighter! you never really lost a monent. very nicely articulated tutorial of an Opp. Amp. specialy as a refresher. since it's been 20 years practiculy. very nice ,will be following up . good work , can tell you love it bravo!!!

I was am A student in my EET school and did great w the math, understood digit TTL.... But when we got to analog chips like the Op Amp, I just couldn't grasp it w a gut intuition, and started to get behind the instructor, constantly playing catchup. I didn't have problems w the math, but since I didn't have that intuition I was just plugging in numbers and not understanding the fundamentals. I had no idea what the 741 was able to do, what it was for, and completely flummoxed when the amplifier circuits were combined w other chips and components. When Dave started out by erasing that scary looking circuit and the math, I was like, ah ha! His method of starting w the basics got me thinking after 30 years, I'm finally gonna be able to comprehend this! For years, I was so intimidated by the 741 that I'd quickly become discouraged when circuits had them and I'd just give up and would just mindlessly follow the schematic and solder em in. Those days are coming to an end. Thanks, Dave. If it weren't for Dave TV, grasping this would be a whole lot harder. Stand aside, Mr 741 Op Amp!