I enjoy your intellect and your humility. Its a rare combination that makes for great viewing and learning. Thank you for going to so much effort. Its much appreciated.
You know out of the hundreds of videos on this subject, I think you are the only one that actually goes through HOW to hook up the power supplies. I think most people doing circuits on TH-cam just want to show what they can do as opposed to helping others. Thanks a ton
Wow! I've been studying this subject for around a week reading books and experimenting but couldn't put in order all the conclusions I was getting and I was really confused and starting to get frustrated. You did a great job explaining everything man, thank you! Like + subscribe.
This has to be the very best explanation of differential pair operating principle that I have ever seen. The clincher for me was at 6:40 "When you change this transistor's biasing you end up changing this one's too?" (the answer being - no).
To get a high impedance you have to use PNP BJTs in a Darlington pair configuration. PNP isn't loading down your input signal being it sources current at the base also with Darlington pairs there's more impedance and it can pick up a signal of from ground up. The circuit performance gets even better if use a PNP current source and a pair of NPNs with their bases tied together and to the collector that you aren't getting the the output from(a current mirror) and if you put 2 NPNs on the output, you'll have a comparator that works just like the ICs do. Though to do it right, it takes 12 transistors for an open collector comparator with nearly perfect performance.
Hey man love the video. Your explanation helped me more than the others :) Also, you say "nmos" funny. I've always heard the "mos" part pronounced like "moss" that grows on a tree. So you say it like "N" + "moss".
Brilliant ! Subscribed and liked . Very easy to listen to which makes the delivery easy to consume good pace n Low register voice kinda like Cronkite. Great production.
It's pretty funny, Love How other people would describe Things Versus how you would describe them Yourself. . Thank you very much Was fun and I was entertained by the vastly Different ways people think. I find that very beneficial
Because they turned out to be awful (despite being expensive), and rather than throw them away, I decided to use them as a mount for my little lapel microphone. I hollowed out the headphone pieces so I could hear normally, because if my hearing is muffled I talk weird.
Ok so it's like 2 pipes with adjusted valves. If we open the valve on one of them little bit the water will flow little, and if we open the other pipe valve wider than more water will flow. And if we drill tiny holes on both of the pipes, the one pipe that has more water flowing will exit more water through the tiny output hole than the one that flows less? I didn't understand the voltage drop part. I always thought that mosfet is eighter on or off, didn't know you can have more current less current...
A transistor can be in one of three states. The first is off(no voltage/not enough voltage). The second is the linear region(amplification). The third is saturation. The "switching effect" occurs when the transistor is either off or in saturation. The linear (amplification) is skipped effectively. We do this by applying enough current or voltage( depends on transistor type) to put it in saturation. To understand transistors though, you really need to understand diodes and the basics chemistry/physics behind them. All diodes have a voltage drop caused by the voltage barrier at their internal pn junction.for silicon diodes this is about 0.7V, therefore you need a voltage atleast that high for the diode to "turn on". A transistor is basically two diodes with one being forward biased (ex: base - emitter) and the other reversed biased(ex: base-collector).
So 50x gain? Good video and that you show things from different perspectives. What's the upper limit for input voltages? And if it is really low, what are ways to increase it?
I'm an absolute noob, but I just cannot understand why there's a bigger "voltage drop", when the transistor's current increases. Especially before the resistor. Can someone explain that?
Thank you Hagrid.
I enjoy your intellect and your humility. Its a rare combination that makes for great viewing and learning. Thank you for going to so much effort. Its much appreciated.
You know out of the hundreds of videos on this subject, I think you are the only one that actually goes through HOW to hook up the power supplies. I think most people doing circuits on TH-cam just want to show what they can do as opposed to helping others. Thanks a ton
I haven't the slightest idea what I was listening too. But I was fascinated none the less
Thanks!!! Just discovered your channel and it is better than any other one in the internet
Ids explained very well , I always think of it as Igs
Wow! I've been studying this subject for around a week reading books and experimenting but couldn't put in order all the conclusions I was getting and I was really confused and starting to get frustrated. You did a great job explaining everything man, thank you! Like + subscribe.
instaBlaster
This has to be the very best explanation of differential pair operating principle that I have ever seen. The clincher for me was at 6:40 "When you change this transistor's biasing you end up changing this one's too?" (the answer being - no).
Very clear to me as i have forgot a lot of this since college and i am swatting up for my job interview.
Thank you so much for your clear explanation.
Thanks for this! Really appreciate the simplified explanation and demonstrated circuit.
To get a high impedance you have to use PNP BJTs in a Darlington pair configuration. PNP isn't loading down your input signal being it sources current at the base also with Darlington pairs there's more impedance and it can pick up a signal of from ground up. The circuit performance gets even better if use a PNP current source and a pair of NPNs with their bases tied together and to the collector that you aren't getting the the output from(a current mirror) and if you put 2 NPNs on the output, you'll have a comparator that works just like the ICs do. Though to do it right, it takes 12 transistors for an open collector comparator with nearly perfect performance.
Hey man love the video. Your explanation helped me more than the others :) Also, you say "nmos" funny. I've always heard the "mos" part pronounced like "moss" that grows on a tree. So you say it like "N" + "moss".
Not all heroes wear capes
Best explanation I've seen!
Bang on! I made the mistake of buying a certain book... by a certain you tube author. Pages of useless circuits. Thanks for a great video.
sir sir sir mister uuuuuu is there a word more then excellent or super excellent....u did really great thing
Thank you, mr Hagrid!
great explanation, thank you.
.....i still try to find a professor to ask for details....lol. ...so true. (it's frustrating actually)
Brilliant ! Subscribed and liked . Very easy to listen to which makes the delivery easy to consume good pace n Low register voice kinda like Cronkite. Great production.
Great explaining
I wish I could explain it as good as you !
It's pretty funny, Love How other people would describe Things Versus how you would describe them Yourself. . Thank you very much Was fun and I was entertained by the vastly Different ways people think. I find that very beneficial
Nice story and very nice demo. I am a little curious about where the hammer comes in :) Thank you for sharing this.
Thank you so much.
Why don't your headphones have speakers on them?
Because they turned out to be awful (despite being expensive), and rather than throw them away, I decided to use them as a mount for my little lapel microphone. I hollowed out the headphone pieces so I could hear normally, because if my hearing is muffled I talk weird.
@@simplyput2796 i always wondered about this....
Wow this is the best explanation I've heard, seen and watched. I thank you :-)
Ok so it's like 2 pipes with adjusted valves. If we open the valve on one of them little bit the water will flow little, and if we open the other pipe valve wider than more water will flow. And if we drill tiny holes on both of the pipes, the one pipe that has more water flowing will exit more water through the tiny output hole than the one that flows less? I didn't understand the voltage drop part. I always thought that mosfet is eighter on or off, didn't know you can have more current less current...
A transistor can be in one of three states. The first is off(no voltage/not enough voltage). The second is the linear region(amplification). The third is saturation. The "switching effect" occurs when the transistor is either off or in saturation. The linear (amplification) is skipped effectively. We do this by applying enough current or voltage( depends on transistor type) to put it in saturation.
To understand transistors though, you really need to understand diodes and the basics chemistry/physics behind them. All diodes have a voltage drop caused by the voltage barrier at their internal pn junction.for silicon diodes this is about 0.7V, therefore you need a voltage atleast that high for the diode to "turn on". A transistor is basically two diodes with one being forward biased (ex: base - emitter) and the other reversed biased(ex: base-collector).
Thank you for the video!
Brother I wish you all the best 🌷
YEEEEES FINALLLY!!!!!
True that you want low power for signal processing but if you go too far you get noise. There is definitely a sweet spot.
Excellent explanation and demo, thanks!
FINALLLLLLYYYY!!!!
Well thanks. Thing one and thing two...
Good video but I'm having headache, how many times you have to cut the video footage.
But what causes the gates to receive different voltages. How is it accomplished?
Thank you
Well done.
hahaha you spoke my heart man I loved your video! please keep uploading
So 50x gain? Good video and that you show things from different perspectives. What's the upper limit for input voltages? And if it is really low, what are ways to increase it?
But how did u get the difference between the outputs sir? I mean how should that be hooked up diagram-wise, I'm new to this
Dude, you need to start making videos again . . .
Oh yeah, it is 'him', I know.
Alan Wolke. Radio code and TH-cam channel is 'w2aew'.
I'm an absolute noob, but I just cannot understand why there's a bigger "voltage drop", when the transistor's current increases. Especially before the resistor. Can someone explain that?
Like and subscribed. Great explanation.
Where is your circuit ground? You don't have any ground symbols in your diagrams.
10K + 10K parrallel is 5K, Zo mosfets are at center voltage! Thats 10K s for
you are the best,,,another Tesla
You're crazy however most or all smart people are....