Top 3 awesome uses of old mobile chargers
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- Опубликовано: 22 июл 2024
- Top 3 awesome uses of old mobile chargers.
1) 0:00 How to convert mobile charger to 3.7V to 220V inverter | Joule thief booster circuit
2) 4:50 How to convert mobile charger to 12V power supply
3) 9:40 How to convert mobile charger to (3V to 16V) variable power supply
How to convert mobile charger to inverter
How to make inverter with old mobile charger
How to make 3.7V to 220V with mobile charger
How to make inverter 12V to 220V
How to convert mobile charger to 12V power supply
How to make 12V power supply with mobile charger
How to convert 5V mobile charger to 12V
How to make 5V to 12V circuit
How to convert mobile charger to variable power supply
How to make variable power supply with mobile charger
How to convert fixed voltage charger to variable voltage output
Top awesome uses of old mobile chargers
#diy
#mobilecharger
#reuse
#electronicsprojects
#inventions
#howto
#solderingtech
#inventions
#circuit
#useful
#homemade
#ideas 
Хобби
কম্পোনেন্টের মান গুলো স্ক্রীনে দিলে ভালো হতো
😞 sorry
Nice and intersting video. Thanks
Thanks brother for appreciate 😌
no se puede bajar.... lamentable, BY
Please tutorial inverter DC to AC solar
Ok soon
Apke Ghar pe voltage Kam hai kya 209v lekin hamare yaha 220/230v hai 🤔🤔🤔
Han humare ghr main kam hain
Amazing uses i will try all of these keep it up clean and understandable...❤
So glad!
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
in last project (3v to 16v) u increase the voltage above 16v and the output capacitor is 16v why it is not burst ? please answer i want to know reason why?
You can use 25v capacitor
Give me that video link please
@@SolderingTech@devilop9875 ask u what and u are given ans is what?aaaa
you are right. it should be 25V or higher
Great job!
Thanks for appreciate
Bravo !
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
I am technology interest
👍
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
good job i like that
❤️
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
Awesome 😊
Thank you! Cheers!
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
Very Nice
Thanks 👍
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
sangat bermanfaat
Thanks
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
Super video
Thanks
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
My transistor is overheating and output is about 110v. Help me. 😢
Try again
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
Nice
this is a weak effort........
=no advice on extracting parts....it is magic...LMAO
-no explanation
-no/incomplete advice
-no parameters given
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
home made AC to DC😅😊😊
Ok
The super
-no explanation
-no/incomplete advice
-no parameters
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
Gut
-no explanation
-no/incomplete advice
-no parameters
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
20 30 ki IC say bluetooth speaker bnao😊
Ok
-no explanation
-no/incomplete advice
-no parameters
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
I’m using an smd npn transistor that i collected from a samsung charger💀
-no explanation
-no/incomplete advice
-no parameters
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged
I m u subscribe
❤️
-no explanation
-no/incomplete advice
-no parameters
-terrible construction
-very poor and inappropiate soldering
-testing is a JOKE
Like for P1
=what is the current
=what is the frequency
=what is the efficiency
=you can not tell the turns ratio using a DVMM
=a single transistor oscillator is not reliable/stable
=there is no regulation
=no protection
=the quick test looks very suspect as that transformer can only handle little current
yes one can salvage parts but it is rarely worth the time and effort. Espcially true for solid state devices as they are likely to be damaged