It's great how you analyze it in detail and easy to understand. Looking forward to part 3 with great anticipation. Thank you very much for sharing and the patience you give yourself to do it. Greetings and blessings
Thank you for visiting our very simple youtube channel. Continue to support this channel, okay? by subscribing. try checking the latest video here, discussing the IC "3/5 Volt Always On" RT8206A/B ua-cam.com/video/8OVSfjsVnBM/v-deo.html
Excelente video ingeniero, muchas gracias por compartir un poco de su conocimiento con todos nosotros la verdad cada vez que veo tus videos me abre más la mente y se va haciendo más fácil entender de como trabaja un circuito, bueno espero gracias y que nuestro señor cuide siempre de su salud y de su familia, aquí un amigo más desde PERÚ 🇵🇪.
Your teacing material is very good, thank you. But I didn't see part 3 of this series. May I konw, where can I find "how laptop charger ic works part 3" ?
You can unlock a not working charger with a battery drill, using it as a dynamo at the 19 v side. By turning the drill rotary at both side, switched on. The charger has to be ac offline. Works with a single charged laptop cell as well, but not always.
Good video. I have a case with this ic. On first PF1. I only get 2.8v only on first an second pin. If i remove pf1, i get 19v on first pin. Then i try remove pf1 and inject 19v on pin2 nothing shorted.
@@soldertua7996 please dilanjut bang.. sebagai pemula, saya butuh pengenalan yg dasar dan detail seperti ini. btw link asli dlm video apakah diambil dr channel lain, mohon infonya. makasih..
I have a toshiba with this IC, ACOK has 3.0V instead 3.2 or higer, VDDSMB is 3.3V, due a Open drain ACOK Must be 3.3... but I cant to understand what is happend here... may be a bad EC draining too much current from the pull-up? Any tip about this ?
part 3 please, the explanation is very interesting, thank you...
It's great how you analyze it in detail and easy to understand. Looking forward to part 3 with great anticipation. Thank you very much for sharing and the patience you give yourself to do it. Greetings and blessings
Thank you for visiting our very simple youtube channel. Continue to support this channel, okay? by subscribing. try checking the latest video here, discussing the IC "3/5 Volt Always On" RT8206A/B
ua-cam.com/video/8OVSfjsVnBM/v-deo.html
Excelente video ingeniero, muchas gracias por compartir un poco de su conocimiento con todos nosotros la verdad cada vez que veo tus videos me abre más la mente y se va haciendo más fácil entender de como trabaja un circuito, bueno espero gracias y que nuestro señor cuide siempre de su salud y de su familia, aquí un amigo más desde PERÚ 🇵🇪.
Terimakasih sudah berbagi informasi sangat bermanfaat
Your teacing material is very good, thank you. But I didn't see part 3 of this series. May I konw, where can I find "how laptop charger ic works part 3" ?
Mil gracias, muy bien explicado. Ahora entiendo un poco mas como carga la laptop
excellent
Very good videos Part 1 and 2, but the background music is little bit high! Thank you !
There should be no background music at all.
You can unlock a not working charger with a battery drill, using it as a dynamo at the 19 v side. By turning the drill rotary at both side, switched on. The charger has to be ac offline. Works with a single charged laptop cell as well, but not always.
deserves more likes
Very helpful.thz u.plz upload more analyzing video.
Sir very nice explanation. Keep it up. Good job.
Thank you for visiting our channel.
well done
what a great work.
di tunggu part 3 nya kak,
Di part2 ini,boleh tau pakai skema mainboard quanta seri brp?biar aku bisa detail dgn format pdf nya.tks.
Good video. I have a case with this ic. On first PF1. I only get 2.8v only on first an second pin. If i remove pf1, i get 19v on first pin. Then i try remove pf1 and inject 19v on pin2 nothing shorted.
So helpful video thanks
Which charging IC is used for HP Probook 450 g6 laptop?
very nice
sir where is part-3 of the series i.e.how the charger ic works....?
🎉
05:58 Wrong calculation. The result is 3.9 V actually by that formula.
kak. terima kasih video nya. bermanfaat. untuk part 3 sudah ada kah kak ?
apakah Part 3 di lanjutkan ?? 😁😁
@@soldertua7996 please dilanjut bang.. sebagai pemula, saya butuh pengenalan yg dasar dan detail seperti ini. btw link asli dlm video apakah diambil dr channel lain, mohon infonya. makasih..
@@soldertua7996 setia menanti kak
need part 3, pleaseeeeeeeeeeeeeeee
Ingin tahu penyebab tegangan pada konektor baterai mendapat 2,2 volt ketika baterai dilepas, Mengapa itu bisa terjadi, Pak?
Where is Part 3?
Part 3 nya kang
part 3?
I have a toshiba with this IC, ACOK has 3.0V instead 3.2 or higer, VDDSMB is 3.3V, due a Open drain ACOK Must be 3.3... but I cant to understand what is happend here... may be a bad EC draining too much current from the pull-up? Any tip about this ?
what is the case?? the motherboard is dead or not charging??
Hello sir, you have a schema, how to get a schema sir? Please ..... ?
Nyimak...
why the noisy backround music ?
Always do videos in English please
back ground music tooloud
Music is very loud. It's Hard to understand what he's saying
Музыку потише и я смотрю с iphone se1, плохо видно