If you buy a processor and you twist the pin of the Motherboard socket while installing it, don’t be discouraged. We’re going to see if we need to straighten the pins of the processor or the motherboard today. Procedures that can be used: We just need to be more careful with the help we give to other people.
One of the worst things that can happen to us is to buy a new processor and a new motherboard and then try to put the CPU on it and break it. Another thing to keep in mind is that if we have bad luck and the pins are connected or connected, we need to be ready for that. Don’t worry, we’ll have a great chance to quickly get and install your hardware again.
Take care when you handle contacts.
People are sure that when they had older sockets, this kind of problem was a whole lot easier to solve. The older sockets were called PGA and the pins on the CPU were mounted in a straight line.
On the other hand, processors now have a lot of connections, which means they need to use other types of connection technology. It connects to the motherboard through LGA or contacts arrhythmias, which are pins that twist when the CPU is pressed. When the CPU is pressed, the pins move to the side and form a spring.
Anyhow, the first thing we need to do before we start working with one of the two parts is to remove the motherboard from the power supply and remove the CPU from its socket.
We should do all of this to make sure that we don’t have static electricity in our hands. For this, we should wear latex gloves or something similar and use our fingers to think about the CPU. And don’t touch the lesson, either.
The things we need.
There are some things we should look for:
- With a magnifying glass, if our short-range vision isn’t as good as it used to be.
- For PGA type processors, you can use your credit card or your DNI.
- Needle or tweezers to remove hair from the case of an LGA socket.
- Take pictures and see the pins more clearly with mobile phones. We need to zoom in for this.
You should think about a lot of things when you’re moving pins.
- When you buy a CPU or motherboard, take a good look at the pins to see how they work. It can be made by a factory. Then we should return the item and talk to the store.
- Make sure you don’t touch the processor with your fingers when you put it in, It is held in place by a socket mechanism.
- Putting on new thermal paste before you remove the CPU will make it work better. Make sure you don’t get any, even if the animal looks hungry because it can be dangerous to eat.
- In LGA sockets, don’t twist the pins back and forth. They’re very thin and gold-plated, so they can break very quickly.
Pins should be straight.
We’ll start with the simplest case first. Processors that put pins into the package usually have them going up and straight, so it will be easy to attach them. As of right now, we can see this format in AMD Ryzen processors.
Place the processor in front of you in a way that lets you see each pin in each row. This way, we will be able to figure out where the crookedness is and how big it is. We say it’s split into rows.
When we do this again, let’s see what we call “columns.” We need to figure out which pin is out of place.
That way, we can see which pin we need to touch. For this, we’re going to use something that is hard, flat, and straight, like DNI or something else. We just have to make sure that it isn’t metal so that some pins don’t touch each other.
When we place the card in the row where the pin folds, we press it in the direction we want to place it, then move it. Do not use too much force. It’s now done in rows, but we have to do it in columns as well. We will do this again until we see our processor lined up with all the pins.
Now, we’ll see if it fits into the motherboard socket without us pressing on it to see if it does. A pin is moved if it doesn’t fit. We move the pin until we can easily fit the pieces in there.
It is important to make sure the motherboard pin is in the correct place in the LGA type socket.
In general, LGA sockets are much more fragile and hard to work with. The number of pins in this area is very high, so it’s hard to tell which ones are in bad shape. That’s why we should use a magnifying glass or something else if we don’t have a good look.
There are a lot of different ways these pins move. They move to one side, but also up and down.
We’ll do the same thing we did in the last case. We’ll put the platform in front of us on the two axes of space and see which one is out of place.
If their virtues are the same, we also need to check. Place ourselves next to the base xanthal view and figure out who they are to do this.
Now, to show how accurate we are, we need to move the inertia from the needle to where it should be. It can go to the right, left, up, or down.
They are so small that we can break them with tweezers and then the lesson is over. We suggest moving it with a needle because they are so small.
Every time we move a little, we should stand in line at all three places to see if the position has changed. It keeps going like this until we can see the pins in rows and columns, top and bottom rows. The picture should look the same, with nothing out of place.
Pins can be fixed this way. There are tools we talked about that you can use. You can also use other tools that are similar. With whom are you most at ease?