# Help me. Laptop Internal Circuit. Problem found? :)

#### Joao Chora

Joined Dec 22, 2016
4
Hello community,

I´m trying to repair my laptop since 1 month ago and finally I think I found the big problem of it.

My laptop doesnt turn on (no lights, nothing happen).

I think the problem of the laptop was a spike of current.

Now into the problem:

I found 2 fuses broken that I already fixed and now finally to laptop get warm into PU2.

This PU2 (power unit 2) receives voltage from the battery (12v) or adapter charger (19v).

This chip that converts the energy to the different parts is from RICHTEK and the name of it is: RT8206A.

VIN: 19v or 12v
VOUT1: 0.27v or 0.23v
VOUT2: 0.26v or 0.23v.

Picture attached.

The chip gets really HOT now (cant hold finger).

I think the chip is in short circuit.. Any test to do it?

I couldn't upload here so link for the files:
https://we.tl/vyOR5i1LYi

#### Dodgydave

Joined Jun 22, 2012
10,095
No, we can't help you no photos......

#### Joao Chora

Joined Dec 22, 2016
4
The link is there. Is a pdf with one picture and the schematic diagram of the chip.

#### AlbertHall

Joined Jun 4, 2014
11,610
That is an example application of the chip, not the actual circuit of your laptop.

#### Joao Chora

Joined Dec 22, 2016
4
I m not understanding...
Its not a example..
The RT8206A receive 12v or 19v depending of what is connected (battery or AC).
The chip must do:
VOUT1 = 5v
VOUT2 = 3.3v

But is not doing that actually...
VOUT1 = 0.2v
VOUT2 = 0.2v

And it really get hot.................

#### AlbertHall

Joined Jun 4, 2014
11,610
The diagram is not of the actual circuit used in your laptop, it says it is a

#### Joao Chora

Joined Dec 22, 2016
4
Yes Typical Application Circuit that I retrieve from the datasheet of that chip.

Thats why it say it can receive VIN from 6v to 25v (in my case and in any laptop (19v or 12v).
But VOUT1 and VOUT2 must be 5v and 3.3v....

#### Alec_t

Joined Sep 17, 2013
12,321
If the chip gets hot and isn't putting out the right voltages then it is probably dead; although other components associated with the chip could be at fault and result in the chip going into thermal shut-down mode.