Aloha, your calculations were for a 3.2V zener and you used a 3.3V zener, take that with the tolerance of the zener I think you were smack on. Thanks for sharing most of us do appreciate what you do.
I'll be honest. I watch or at least listen if I'm working, but I won't fully comprehend it until I sit down with the video and do the project while I'm watching you do the project. But I at least have had some of the information get stuck in my head. This will be a future experiment when I have time
As always, you're a natural teacher. I feel the need to speak up, though. In future could we possibly start using code words for certain things that just aren't good visuals? Say, "I'm putting my whole radish into the production of this video" or "just so you don't chew my orange out" just saying... 🤣 Thanks for your constant sharing, Paul. Your teachings are a privilege to watch.
Thank you for your efforts to teach us! This was a better video production = You drew the schematic at the beginning = Yea! One small addition would make it even better = Show how the power moved through the circuit = For a NPN transistor, power moves through Base to Emitter. You did state that, but drawing a line of the path would add emphasis. All together, a better video and teaching = Atta-boy!
I am now very interested in Zener diodes and how the heck plugging its anode into negative could do something so unexpected. Time to watch reverse bias videos. Thank you!
Zener diodes are amazing. The knee of the Zener is pretty interesting. Transistors are the work horses of a ton of circuits. This was a whole assed video by a bad ass You Tube educator that posts this stuff on here for entertainment and improvement.
Another great explanation and video tutorial, but now I’ve got to put in a request. Please do a “High Current” led driver circuit sometime please sir? I have a bunch of these Cob LED spotlight boards with 24 leds in parallel. The original circuit I got them from had an inductor and a couple of capacitors and operated on a single cell lion battery. I try and power them from battery alone and they get just a fraction brighter but ALOT hotter so they’re definitely sucking the current. So I figure it’s not a boost circuit, it must be some sort of RC oscillator perhaps allowing the battery voltage to get pulsed at high speed as a means to controlling the current through them. 🤷🏼♂️
Great wee classic circuit. Easy maths is always good, Hope the snow isn't too deep? We had our first peppering of snow yesterday but all gone again today! 🤣
so how do I control current to stop burning out the resistor with a 5v 20A power supply (am running led strips but want to tap of same supply to run timer and maybe 8 5mm leds, without putting another power supply in, space is limited ?
be cool to see a regen built and explained how and why things work. just sayin.. could be a few 3 or 5 videos. some sort of band selector. so as to cover vlf to hf
Its been more than 35 years ago that I learned. But, isn't it that the constant current is ocer Re? The rest of the voltage is divided over CE and the LED and therefore the current changes through the LED when the voltage changes? I am a bit confused.
A simple question (not linked to this tuto) how can i get 3v AC from 6 v AC output transformer without hack the transformer itself ? Any help are welcom tanks a lot
I’m trying to understand this. I see that the emmiter has a resistor and the led doesn’t. I’m guessing that it’s because of ohms law as to why the led doesn’t need its own resistor?
Aloha, your calculations were for a 3.2V zener and you used a 3.3V zener, take that with the tolerance of the zener I think you were smack on. Thanks for sharing most of us do appreciate what you do.
TY for the breadboard closeup. Makes all the difference in the world when I am trying to repeat these circuits at home.
Thanks, I'm trying to up my production value
Your calm but fired up intro is full ass in use. Thanks for another great permanent lesson.
I'll be honest. I watch or at least listen if I'm working, but I won't fully comprehend it until I sit down with the video and do the project while I'm watching you do the project. But I at least have had some of the information get stuck in my head. This will be a future experiment when I have time
As always, you're a natural teacher. I feel the need to speak up, though. In future could we possibly start using code words for certain things that just aren't good visuals? Say, "I'm putting my whole radish into the production of this video" or "just so you don't chew my orange out" just saying... 🤣 Thanks for your constant sharing, Paul. Your teachings are a privilege to watch.
So if I got it right, you think he should use the polititicaly constipated way?🤣🤣
Thank you for your efforts to teach us! This was a better video production = You drew the schematic at the beginning = Yea! One small addition would make it even better = Show how the power moved through the circuit = For a NPN transistor, power moves through Base to Emitter. You did state that, but drawing a line of the path would add emphasis. All together, a better video and teaching = Atta-boy!
I have a bunch of Zeners, now it's time to put them to good use! Appreciate all these tutorials.
Thanks for the detailed video and lesson. Really appreciate the hard work you do.
One day, I sat at the bench building jumpers for my breadboard, then I saw your vertical Dupont jumpers🤯😢
Thanks for the video Paul. ☮️✌️
I learned so many things watching your videos. Thank you.
I am now very interested in Zener diodes and how the heck plugging its anode into negative could do something so unexpected. Time to watch reverse bias videos. Thank you!
I think its the main way zener diodes are used, we use the breakdown voltage to get simple voltage regulation
I didn’t think this was slow at all (half fast)…. Great stuff at full speed ahead!!! Keep up the great work!!! Thanks again!!!
Exactly the type of electronics video I was looking for. Thanks
Thanks bro, I was just looking for a low constant current circuit. Don't pay no mind to the haters.
Glad too see your humour Comin back brother. I laughed my ass off lol
Like your series "Classic Circuit You Should Know". Thank you.
I hope, as always...That is going your way, Paul!
I enjoy theknowledge refresher, no matter which side of your as.... you use. Thanks again.
Nice comeback and good on you for it.
Zener diodes are amazing.
The knee of the Zener is pretty interesting.
Transistors are the work horses of a ton of circuits.
This was a whole assed video by a bad ass You Tube educator that posts this stuff on here for entertainment and improvement.
Class in session! Pay attention, take notes.
Another great explanation and video tutorial, but now I’ve got to put in a request. Please do a “High Current” led driver circuit sometime please sir? I have a bunch of these Cob LED spotlight boards with 24 leds in parallel. The original circuit I got them from had an inductor and a couple of capacitors and operated on a single cell lion battery. I try and power them from battery alone and they get just a fraction brighter but ALOT hotter so they’re definitely sucking the current. So I figure it’s not a boost circuit, it must be some sort of RC oscillator perhaps allowing the battery voltage to get pulsed at high speed as a means to controlling the current through them. 🤷🏼♂️
Great informative Video! However I come with a challenge. How would you design a circuit with constat light (with the help of e.g. photo diode)?
Great wee classic circuit. Easy maths is always good, Hope the snow isn't too deep? We had our first peppering of snow yesterday but all gone again today! 🤣
All melted here too
And yes folks it works!!!
You can use n-channel Jfet and get rid of zener and R1. Just connect the gate to ground.
Thanks Paul for the laugh and I'm glad we got the whole thing this time... ROTF
Also thank for taking the time to teach us.
LLAP
That was great, a basic I should have known.
A great intro that made me chuckle. "I will be using my entire ass in this production, and it is substantial". Now on to the presentation. :-D
Great video. Thanks.
Very cool and very simple.
so how do I control current to stop burning out the resistor with a 5v 20A power supply (am running led strips but want to tap of same supply to run timer and maybe 8 5mm leds, without putting another power supply in, space is limited ?
What is the significance of a transistor in maintaining a constant current? Is there a way to maintain a constant current without a transistor?
Cheers for the great explanations, you simplify it for everyone. 🤙🏼🤙🏼🇦🇺🇦🇺
P.s you still got a nice toosh lol 🍻
be cool to see a regen built and explained how and why things work. just sayin.. could be a few 3 or 5 videos. some sort of band selector. so as to cover vlf to hf
Why do you let to work the BJT in Voltage and not in current?
Good job. Have you shown the 2 xstr/2 rstr current limiter yet?
Not yet
Love your videos.
I'm glad you're going into it all assed. It's better than being jackassed like some of the people who complain about everything. 😎
Thank You !
Great stuff... Thanks again my friend
👍
Cool Classics...
How did you choose the values of the two resistors?
Look in the description man, there is a link to the calculator.
Yes, a full moon video production 😆
Can you achive that with 220VAC ?
Thank you so much
You didn't show how you came up with the resistor values 470ohm for RB and 220ohm for RE, how did you come up with those values?
Use the calculator in the description
Its been more than 35 years ago that I learned. But, isn't it that the constant current is ocer Re? The rest of the voltage is divided over CE and the LED and therefore the current changes through the LED when the voltage changes? I am a bit confused.
A simple question (not linked to this tuto) how can i get 3v AC from 6 v AC output transformer without hack the transformer itself ? Any help are welcom tanks a lot
The simpler thing to do is look for a transformer that will give you the desired output with the desired input.
Thank you for making this video and letting it see me. pe1krx
I’m trying to understand this. I see that the emmiter has a resistor and the led doesn’t. I’m guessing that it’s because of ohms law as to why the led doesn’t need its own resistor?
How would you integrate a microcontroller to this for controls and PWM dimming? Thank you.
I've heard of going whole hog, but whole ass? That's new.
Would have enjoyed seeing the math done on camera.
Makes you wonder why you can't get LEDs with all that integrated into the package.
You can
dear lord what was in that gatorade bottle
👍👍TY
0:43 lol
hmmm . . then, should the +9 Volts go up to +12 Volts - you have Fryed That LED - LOL .. Great Job HACK! - LOL