I cannot begin to explain how valuable these lessons are. You are sharing facinating detail that explains so much, yet it is easily missed when you glance over a datasheet. Thank you 🙏

Now- you have it. People fail to be curious. We therefore never move. Well said sir, I’m guessing most of your viewers are curious, and such a relief to see this

This guy may be the most underrated KZbinr I have ever seen

Best electronics teacher on Earth. Your videos are fantastic. Thank you.

I'm starting to hit like on this guy's videos preemptively instead of adding them to "watch later" because I simply know upfront that I will like them 🤣

this brings back harsh reality setting in as switch noise kept me flummoxed 'til this day, which de-bouncing efforts failed me on my first and last effort to use analog switch IC inside the guitar pedals I had modified in moving the switches for multple pedals off-board to one long extruded aluminum bar, but dang, man. Any hints what I missed, all I received was an even more powerful SNAP when the player hit any of my misplaced switches and had to undo the whole mess....... It seemed so obvious, but I was clueless. CD4066 IIRC thanks! Digikey's "how-to-implement-hardware-debounce-for-switches-and-relays" link is pretty-much what I followed.

Really love the way to talk it in such simple way, and always in discovery mode.

I’m too curious to go buy a new guitar amplifier for myself with old electronics laying around here and I have a new infatuation with the best KZbin creations I ever saw I may be starting my own curious channel and asking why so I haven’t seen anything more than two of you so far and I’m definitely going through the whole KZbin channel to see you and what you have discovered! It’s like I have a new favorite textbook I cannot stop learning so there goes all my future plans for the day at least I’m going to have so much fun and annoy my peers with amazing things that they don’t want to hear me try and make them feel half as excited about lol but I’m so excited about it it’s just amazing!

Bless you brother! Nail got wacked on the head while we watched

Please make the video you mentioned a few back about the best set of 'beginner' chips for experimenting. That would be great. This video was great too. As always.... Thanks

There were synthesizers (gnat and wasp) that abused cmos ICs to make analog oscillators and filters.

well explained as usual, thank you.

The real benefit of CMOS is found by spending minimal time in the transition zone. The transition zone forces the transistors to dissipate heat. That's a waste of power. You want the chip to be cool and efficient.

Sir, I really like how you dive into very basics intricately and that's the case with me too . Can yo please explain me how to solve the 0.7 deadzone In bjts. I mean how an op amp made of bjts can sense very small voltage . Iam trying to make a basic voltage comparator with bjts on breadboard and iam having problem of 0.7v deadzone . My circuit can only sense voltages above 0.7.

YOLO, Ilove it!! Keep up the great work. -Chaos

I really like your whiteboard diagrams, maybe would've been cool if you illustrated the triple inversion vs not with the whiteboard. Please do keep making videos!

Could you do a video on how to deal with part tolerances? it something that you always encounter and sure you have figured you way arround over the years.

Thank you

I love you as a person

And I’ll be watching ya, bet you hate the phrase ‘ You cant be too safe’ as much as I do. Stasis is very dull I think.

You are like Ron Swanson, but a more tech savy one :)

i am curious

The inverters are frequently used as analog amplifiers in generating clock signals for MCUs and LO for RF mixers. Actually, to make sure the inverter stays in the amplification region (linear, "bad" transition region), a feedback resistor, usually 1MOhm or something like that, connects the output of the inverter to the input of the inverter to create a negative feedback, so that the inverter is biased to the transition state. You can check "pierce oscillator using inverters/NOR gates/NAND gates" to see how such digital analog inverters are used as analog amplifiers, in almost every clock generation circuit, using L-C network or Crystal-C network. A example here: kzbin.info/www/bejne/aHXKkHqPjdhnidU

Curiosity made the expert. You can't do this. Why? Because I've learned not to do this. That's not an expert. Well let's find out why and become the expert.