what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
I have one question regarding Digital VOLT AMMETER connection. Among the 3 thin wires yellow goes to positive output. And red goes to buck converts(300w) output + terminal. But what about black wire? Which is the correct seen many videos all have different. 1) Not connected 2) connected to buck converters output negative. 3) added LM7812 at buck converters o/p and given safely 12v to power up the digital V/A meter. As per me the 3rd ne should be correct but all of above cases are working... Pls help me.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Дивлюсь як чоловік виготовляє корисні ресі з пластикових труб, думав собі так зробити, але в нас труби чомусь дорожче виходять ніж придбати готовий корпус для приладу.
Guys do not try this circuit, there is a big flaw in this project .This might work as a lab bench power supply but never as a lithium (or any) battery charger. The reason being in an event of power cut or if u remove the input adapter while the battery is charging the current will flow back from battery to the buck converter and will damage it . There is no reverse current protection used here. If you dont trust me you are welcome to try this and fry your precious buck converter 😂 .
Très beau travail, bien finalisé,cependant je comprend pas pourquoi sur le réglage du voltage sur d anciens videos il y avait 03 fils et sur ceci juste 2 fils!
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish. This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off. His way will damage/destroy your battery. Charging depends on the C-rate, voltage, etc This circuit does NONE of the above.It will damage your batteries. You decide - is he just collecting Likes out of ignorance, or is he making a fool of you. He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor" Why would you need high current for charging in series - that is crazy. Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Your pvc pipe sheet skill is so nice.
thanks
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
how it turned on by itself when you plug in the Battery first ?
Only displayed battery voltage not following current
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Nice gadget best creation all in one 👍👌
Thanks
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
That's a good idea my friend, thank you👍
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Wonderfully done
Thank you so much 😀
Very nice! 👍
Thank you! 👍
I am from Jharkhand in India
Good. Thanks for watching
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
This made DIY of professional electronics engineer
Yours all creation r wonderful..
Thank you so much 😀
do you somehow glue those trimpots to the potentiometer in a way you can still turn them? why not just get a potentiometer of the right value?
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
@@kennmossman8701 .ore and more of that. It is all about creating 'content'
What glue is that??
Namaskar ji, kya hum is power supply ke charo output ko ek saath use kar sakte hain, kripya jwab dene ka kashta kare
Jab may nay banaya tha to switch on krnay say eski light jal gae or sahi kam nahi kr rahi thi kia karo 12v kay adapter say chalaya tha
I have one question regarding Digital VOLT AMMETER connection. Among the 3 thin wires yellow goes to positive output. And red goes to buck converts(300w) output + terminal. But what about black wire?
Which is the correct seen many videos all have different.
1) Not connected
2) connected to buck converters output negative.
3) added LM7812 at buck converters o/p and given safely 12v to power up the digital V/A meter.
As per me the 3rd ne should be correct but all of above cases are working... Pls help me.
Please Sir give the details of circuits that you put on that...
What is the order for connecting multi-turn potentiometers?
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Kitna amp ka smps aur kitne volt ki lagaye apne
Respected sir kindly tell me which super glue you are using. Kindly give its name or buying link. Please🙏 reply waiting.
Fevi Kwik 203
but I mean how many K can I put the potentiometers, the source is 90W, 19V 4.5A
hello ser muje 12v/20am ki betri chahiye lithiyam me
no way that smps can go 10 amp. But well project, I have learned a lot. Thanks you.
Welcome
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Sir can i give 5v as a input
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
Дивлюсь як чоловік виготовляє корисні ресі з пластикових труб, думав собі так зробити, але в нас труби чомусь дорожче виходять ніж придбати готовий корпус для приладу.
Guys do not try this circuit, there is a big flaw in this project .This might work as a lab bench power supply but never as a lithium (or any) battery charger. The reason being in an event of power cut or if u remove the input adapter while the battery is charging the current will flow back from battery to the buck converter and will damage it . There is no reverse current protection used here. If you dont trust me you are welcome to try this and fry your precious buck converter 😂 .
been there done that😂
Las conexiones de cables y la mano de obra no son apropiadas. Ojalá fuera más bonito.
Porque no son apropiados, si no vas a utilizar las 4 salidas a la vez, el cable te aguanta bastante bien
Good video
Wow 😊😊
Thanks
This low cost switch is gonna break soon. And the cooling fan is so small for the heat dissipation
Très beau travail, bien finalisé,cependant je comprend pas pourquoi sur le réglage du voltage sur d anciens videos il y avait 03 fils et sur ceci juste 2 fils!
sepre pep ke liya
❤️
Thanks
👌
Thanks
what scares me is when one of THESE guys posts a video that is super NOT TRUE at all. It is a pile of utter rubbish.
This is NOT a Li-ion battery charger at all.
Li-ion battery chemistry REQUIRES a different charging methods; first CC, then at a set point a CV charge, then trickle chsrge, then cut-off.
His way will damage/destroy your battery.
Charging depends on the C-rate, voltage, etc
This circuit does NONE of the above.It will damage your batteries.
You decide - is he just collecting Likes out of ignorance, or is he making a fool of you.
He can not get the specs right. The title says "36V 10Amp Lab Bench Power Supply" while the BOM says" 24V 3Amp Adaptor"
Why would you need high current for charging in series - that is crazy.
Using a buck converter is also crazy as there is no current limiting, no short-circuit protection, and the waveform is terrible.
xD
Bhai mujhe de do😮
@kennmossman8701 stop trolling