In this channel, you will learn to make circuits, MCU programming and a lot of stuff related to electronics This is X Electronics here and I am XE Master
دمت گرم. کلک روغن بچه عالی بود. من از طلق نسوز استفاده میکردم که خیلی گرون و کمیابه. هتمن روشتو امتهان میکنم.
@electengin8204 ай бұрын
چه لهجه ی ضایعی ولی دمت گرم
@sweechenho35037 ай бұрын
How to test switching regulator whether is good or not.
@samueljohnson13627 ай бұрын
Most complete tutorial that I have seen. Most others will skip or minimize the importance of steps. Thank you.
@empire47767 ай бұрын
what happen to your all old videos............
@electrobuz18 ай бұрын
Where is your other video's? I remember you have other videos too! it doesn't appear on your channel?
@XEMC8 ай бұрын
Those videos are on my new channel. @EleWizard
@fardadma Жыл бұрын
سلام من تو پروژم میخواهم برای تغذیه میکروکنتلرم 12v رو 3.3v تبدیل کنم و برای این کار از تراشه Lm1117 3.3v استفاده کردم ولی در جریان ۲۵۰ میلیآمپر تراشه سریعا داغ میکنه و قطع میشه بعد اومدم و با استفاده از یه تراشه دیگه اول ۱۲ رو به ۵ تبدیل کردم و بعد به ۳.۳ ولت اینبار زمان بیشتری کار کرد اما باز هم تراشه ای که ۱۲ ولت رو به ۵ ولت تبدیل میکرد داغ کرد لطف میکنید راهنمایی کنید
@kekekeernest8920 Жыл бұрын
Please Sir can you make a video on 3 - 5v boaster
@XEMC Жыл бұрын
Maybe someday 😉
@kingofdice66 Жыл бұрын
Wonderful explanation! You have a gift for teaching.
@XEMC Жыл бұрын
Thank you! 😃
@Enigma758 Жыл бұрын
6:45 Could you please elaborate on why an open collector can drive more load current? I ask because it seems to me that a TTL output could also be connected directly to the load and when the bottom transistor is sinking current to ground, it is effectively the same as an open collector since it's collector is also tied to the load. Thanks.
@jojobonnfadal2124 Жыл бұрын
Powersupply with capacitors ( from Ac to Dc )
@XEMC Жыл бұрын
Nope 😉
@jojobonnfadal2124 Жыл бұрын
@@XEMC what lese, if it's allowed to ask you ?!
@hichamtassi1753 Жыл бұрын
Hello there, nice video ! can you better explain why the 0,7v being stable are any useful ? i don't get it. Thanks !
@haom95 Жыл бұрын
Mr X Electronics Man, great explanation in this kind of circuits. Thanks for your time in order to explain this kind of topics.
@XEMC Жыл бұрын
You are most welcome and thank you for watching 🤗
@hichamtassi1753 Жыл бұрын
Good knowledge. High gratitude.
@XEMC Жыл бұрын
Thank you dude 🤗
@markjosephlobete2563 Жыл бұрын
Full wave rectifier
@nsnowaz Жыл бұрын
Your concept is like magic . Your very hard workers for making this type of delicious content
@XEMC Жыл бұрын
Wow, so glad you think so 🤗
@sananjabrayilov5349 Жыл бұрын
Great, waiting for I2C protocol video. Is it coming soon?
@davidharms3562 Жыл бұрын
Great explanation and video! Learning to drive loads with different logic levels via open collector outputs was a huge game changer for me, and allowed me to integrate with relative ease. Thanks, and keep up the great work!
@XEMC Жыл бұрын
Glad it was helpful. Keep watching 🤗
@in70x Жыл бұрын
Back in the day I struggled with open collectors; if I had this video I would have gotten the idea much quicker. Good stuff
@marinehm Жыл бұрын
Very nice explanation. How would I calculate the resistor and Transister needed for a 12V DC motor?
@jameskidd7906 Жыл бұрын
That's what the SCIENCE VIDEO means thanks à lot
@XEMC Жыл бұрын
You are welcome dude 🤗
@vijayalaxmipotdar4005 Жыл бұрын
Hi XElectronic, I want to run 12v DC motor , which transistor I should use…pls. Help on this. I am using 10kohm potentiometer. Thanks in advance.
@XEMC Жыл бұрын
Glad you like this video. It is not easy to answer yout question in a comment, i need to explain it in an exclusive video. 👍
@vijayalaxmipotdar4005 Жыл бұрын
@@XEMC Thanks for your reply. Are you planning to make one??
@uricohen5463 Жыл бұрын
your are one of the best
@RS_83 Жыл бұрын
Is there a mistake on 2:45 on TTL BJTs diagram? I mean the upper bjt should be PNP, but you drew both of them as NPNs. If there is a logical 1 on their inputs, there would be a short circuit.
@XEMC Жыл бұрын
I dont think so, there are several diagrams, search for ttl circuit on google.
@mrmshifan Жыл бұрын
Thank you for the detailed explanation 👍👍👍
@XEMC Жыл бұрын
Thank you for watching 🤗
@ali2naveed Жыл бұрын
Hi Please make the capacitor used for dropping voltage video. Many Thanks for your content. Cheers
@aliahmadi5556 Жыл бұрын
سلام دیگه میکرو کنترلر کار نمیکنید کاش در کنار این کانال کانال قبلیتونم کار میکردید
@XEMC Жыл бұрын
I will continue teaching microcontroller here on my KZread channel
@GeoffryGifari Жыл бұрын
if we connect the output of a 5V open-collector IC to the input of 3.3V IC (with pullup resistor in between), does that mean current flows from the input of the 3.3V IC to back to the 5V IC (and then ground through the transistor emitter)?
@XEMC Жыл бұрын
No, current will flow from Vcc to the output if it is active. I mean if output is active (connected to ground) then current will flow from vcc through pull-up resistor to ground.
@GeoffryGifari Жыл бұрын
hmmm so open collector/drain can drive the output directly and with any voltage because the voltage (lets say to activate a motor) is set by the power supply? if the IC is sourcing the output voltage is limited by the ICs Vcc
@XEMC Жыл бұрын
Yes exactly, if the output is sourcing then max voltage on output will be equal to VCC/VDD
@viniciusvbf22 Жыл бұрын
Great video! I'm well versed on I²C communication and I knew TTL (transistor-transistor logic), but I never SAW why it was called TTL until this video. Also, the two pull-up resistors (usually 10k) on the I²C bus on SDA (data) and SCL (clock) make total sense now. Thank you!! If at all possible, can you compare I²C and SPI in a future video? Thanks!
@XEMC Жыл бұрын
Awesome, glad this video was helpful 🤗
@gkdresden Жыл бұрын
The arrows in the symbols for NMOS and PMOS go in the wrong direction.
@XEMC Жыл бұрын
Are you sure?
@andreyace8768 Жыл бұрын
Thank You very much!!! Peace and good to You!
@XEMC Жыл бұрын
Thank you very much 🤗
@ChandrashekarCN Жыл бұрын
💖💖💖💖
@XEMC Жыл бұрын
❤️❤️❤️🤗🤗
@NebulaM57 Жыл бұрын
Fantastic! This made total sense! Thank you for your work!
@XEMC Жыл бұрын
Thank you too
@Creatortech95 Жыл бұрын
❤❤❤ love your videos ❤❤❤
@XEMC Жыл бұрын
Thank you so much 🤗
@timokimo8206 Жыл бұрын
The best instructor ever 🤩
@XEMC Жыл бұрын
Wow, thank you 🤗
@zdzisawdyrman4457 Жыл бұрын
Good to see new video 👏
@XEMC Жыл бұрын
Keep watching ❤️
@rgoldrich Жыл бұрын
I like your videos, especially for the question and answer format! You answer a lot of the questions I have. However the videos become much less useful when (a) you explain too quickly, and (b) your hands continually cover much of the diagrams. Just a suggestion for improvement. Thank you for your efforts!
@mohammadmahdiradfar8457 Жыл бұрын
Ardabil oshaghlary
@XEMC Жыл бұрын
Saghol gardash
@mikecamps7226 Жыл бұрын
I can't determine what is on the bread board.....Hmmm perhaps electron spin & Tesla theory ????
@kunedroid3446 Жыл бұрын
Great content.. suggestion to use the correct drawings on your circuits or you will probably hit a ceiling on viewers/subs. Cheers from Brazil!
@XEMC Жыл бұрын
You are most welcome 🤗
@Happymacer_P Жыл бұрын
I’ve used that method you describe with great success, except I use overhead transparency film (double up the film to get the right darkness). I built a simple laminator by removing the temperature controller. Great pressure and heat and only needs one pass. Just don’t leave the laminator on too long! 1 teaspoon of sodium carbonate (washing soda) per litre water to develop the resist, then expose in sunshine and etch. Tracks turn blue when nicely exposed. Then remove resist using 1 teaspoon caustic soda per litre … now I’m wondering if my recollection of the solution concentrations is correct… never mind it can be adjusted if too weak!
@XEMC Жыл бұрын
Good job. I think it is better to use fresh solution every time you are making PCB
@MichaelVx Жыл бұрын
i like the way you say how things work with my skill i still have to learn more so thanks a lot
@XEMC Жыл бұрын
Glad to hear that! 🤗
@rydjaradat Жыл бұрын
Thank you for the explanation video, I would like to see a buck converter module controlled by Arduino and a screen interface to display current voltage wattage etc .
Пікірлер
👍
excellent explanation sir
What a wonderful explanation! Thank you so much!
دمت گرم. کلک روغن بچه عالی بود. من از طلق نسوز استفاده میکردم که خیلی گرون و کمیابه. هتمن روشتو امتهان میکنم.
چه لهجه ی ضایعی ولی دمت گرم
How to test switching regulator whether is good or not.
Most complete tutorial that I have seen. Most others will skip or minimize the importance of steps. Thank you.
what happen to your all old videos............
Where is your other video's? I remember you have other videos too! it doesn't appear on your channel?
Those videos are on my new channel. @EleWizard
سلام من تو پروژم میخواهم برای تغذیه میکروکنتلرم 12v رو 3.3v تبدیل کنم و برای این کار از تراشه Lm1117 3.3v استفاده کردم ولی در جریان ۲۵۰ میلیآمپر تراشه سریعا داغ میکنه و قطع میشه بعد اومدم و با استفاده از یه تراشه دیگه اول ۱۲ رو به ۵ تبدیل کردم و بعد به ۳.۳ ولت اینبار زمان بیشتری کار کرد اما باز هم تراشه ای که ۱۲ ولت رو به ۵ ولت تبدیل میکرد داغ کرد لطف میکنید راهنمایی کنید
Please Sir can you make a video on 3 - 5v boaster
Maybe someday 😉
Wonderful explanation! You have a gift for teaching.
Thank you! 😃
6:45 Could you please elaborate on why an open collector can drive more load current? I ask because it seems to me that a TTL output could also be connected directly to the load and when the bottom transistor is sinking current to ground, it is effectively the same as an open collector since it's collector is also tied to the load. Thanks.
Powersupply with capacitors ( from Ac to Dc )
Nope 😉
@@XEMC what lese, if it's allowed to ask you ?!
Hello there, nice video ! can you better explain why the 0,7v being stable are any useful ? i don't get it. Thanks !
Mr X Electronics Man, great explanation in this kind of circuits. Thanks for your time in order to explain this kind of topics.
You are most welcome and thank you for watching 🤗
Good knowledge. High gratitude.
Thank you dude 🤗
Full wave rectifier
Your concept is like magic . Your very hard workers for making this type of delicious content
Wow, so glad you think so 🤗
Great, waiting for I2C protocol video. Is it coming soon?
Great explanation and video! Learning to drive loads with different logic levels via open collector outputs was a huge game changer for me, and allowed me to integrate with relative ease. Thanks, and keep up the great work!
Glad it was helpful. Keep watching 🤗
Back in the day I struggled with open collectors; if I had this video I would have gotten the idea much quicker. Good stuff
Very nice explanation. How would I calculate the resistor and Transister needed for a 12V DC motor?
That's what the SCIENCE VIDEO means thanks à lot
You are welcome dude 🤗
Hi XElectronic, I want to run 12v DC motor , which transistor I should use…pls. Help on this. I am using 10kohm potentiometer. Thanks in advance.
Glad you like this video. It is not easy to answer yout question in a comment, i need to explain it in an exclusive video. 👍
@@XEMC Thanks for your reply. Are you planning to make one??
your are one of the best
Is there a mistake on 2:45 on TTL BJTs diagram? I mean the upper bjt should be PNP, but you drew both of them as NPNs. If there is a logical 1 on their inputs, there would be a short circuit.
I dont think so, there are several diagrams, search for ttl circuit on google.
Thank you for the detailed explanation 👍👍👍
Thank you for watching 🤗
Hi Please make the capacitor used for dropping voltage video. Many Thanks for your content. Cheers
سلام دیگه میکرو کنترلر کار نمیکنید کاش در کنار این کانال کانال قبلیتونم کار میکردید
I will continue teaching microcontroller here on my KZread channel
if we connect the output of a 5V open-collector IC to the input of 3.3V IC (with pullup resistor in between), does that mean current flows from the input of the 3.3V IC to back to the 5V IC (and then ground through the transistor emitter)?
No, current will flow from Vcc to the output if it is active. I mean if output is active (connected to ground) then current will flow from vcc through pull-up resistor to ground.
hmmm so open collector/drain can drive the output directly and with any voltage because the voltage (lets say to activate a motor) is set by the power supply? if the IC is sourcing the output voltage is limited by the ICs Vcc
Yes exactly, if the output is sourcing then max voltage on output will be equal to VCC/VDD
Great video! I'm well versed on I²C communication and I knew TTL (transistor-transistor logic), but I never SAW why it was called TTL until this video. Also, the two pull-up resistors (usually 10k) on the I²C bus on SDA (data) and SCL (clock) make total sense now. Thank you!! If at all possible, can you compare I²C and SPI in a future video? Thanks!
Awesome, glad this video was helpful 🤗
The arrows in the symbols for NMOS and PMOS go in the wrong direction.
Are you sure?
Thank You very much!!! Peace and good to You!
Thank you very much 🤗
💖💖💖💖
❤️❤️❤️🤗🤗
Fantastic! This made total sense! Thank you for your work!
Thank you too
❤❤❤ love your videos ❤❤❤
Thank you so much 🤗
The best instructor ever 🤩
Wow, thank you 🤗
Good to see new video 👏
Keep watching ❤️
I like your videos, especially for the question and answer format! You answer a lot of the questions I have. However the videos become much less useful when (a) you explain too quickly, and (b) your hands continually cover much of the diagrams. Just a suggestion for improvement. Thank you for your efforts!
Ardabil oshaghlary
Saghol gardash
I can't determine what is on the bread board.....Hmmm perhaps electron spin & Tesla theory ????
Great content.. suggestion to use the correct drawings on your circuits or you will probably hit a ceiling on viewers/subs. Cheers from Brazil!
You are most welcome 🤗
I’ve used that method you describe with great success, except I use overhead transparency film (double up the film to get the right darkness). I built a simple laminator by removing the temperature controller. Great pressure and heat and only needs one pass. Just don’t leave the laminator on too long! 1 teaspoon of sodium carbonate (washing soda) per litre water to develop the resist, then expose in sunshine and etch. Tracks turn blue when nicely exposed. Then remove resist using 1 teaspoon caustic soda per litre … now I’m wondering if my recollection of the solution concentrations is correct… never mind it can be adjusted if too weak!
Good job. I think it is better to use fresh solution every time you are making PCB
i like the way you say how things work with my skill i still have to learn more so thanks a lot
Glad to hear that! 🤗
Thank you for the explanation video, I would like to see a buck converter module controlled by Arduino and a screen interface to display current voltage wattage etc .
Great suggestion! 👍