اصلاح لابتوب lenovo v15-ada تتجمد اثناء الاستخدام - تعطيل الرامات المدمجة

اصلاح لابتوب lenovo v15-ada تتجمد اثناء الاستخدام - تعطيل الرامات المدمجة

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Peace be upon you guys, we brought you a new video, and this time we have this Lenovo laptop that you saw in front of you. Of course, the model of this device is as shown in front of you: Lenovo V15, explained by EDI. The model is the NIM 82C7. The problem with this laptop is somewhat strange. The device works normally, but after... After a few minutes, the device develops cracks in the image and its owner freezes. He worked hard and dismantled the device and tried to remove the screen. He thought that it was the faulty screen, so he broke the original screen. The device's money,

as you can see, is broken, so put this screen in. It has a problem. Of course, it has color creep. If you pay attention, we put it in for the purpose of examination only. Of course, the things I tried. The first thing I tried was that he replaced the second RAM. Of course, the device has a built-in RAM. The motherboard is platinum, an

external RAM of a large size, and a built-in RAM of 8 GB. I removed the RAM and replaced it with another RAM. 8 GB, the same thing. I canceled the RAM. I ran it on the built-in RAM. The problem remained the same. I shipped it to Bayes. I said that there might be a problem with Bayes as well. The problem remained the same thing, of course. I tried removing

the RAM that was on board, meaning the built-in or built-in software method, which was explained by engineer Mohamed Aram. In a previous video, of course, I did not explain the method. The software method did not work with this model after the modification process in the Bayes file. In order to remove the built-in RAM, the device, of course, turned on and did not display an image, so I had to return the original bootloader to the device. Currently, where is the suspicion? As for the built-in RAM that comes with the device, and as for the processor, why don’t we liken it to the graphics card? Because if we come and pay attention to it in this way, we will see that it is not the device. It contains an external graphics card , but the card has a graphics card. The card's money screen is integrated inside the processor. The processor may have it. There may be a problem with the built-in RAM.

Of course, I also suspected the SSD. I removed it and put in another SSD or a new M2 and installed Windows until it had 10. I left it with Windows 11 and the problem also remained the same. Currently, our problem is limited to the processor. With the built-in RAM, what we will do now is the process of canceling the built-in RAM, and we will fix it We will see what result we will get. How will we settle this thing? Of course we will do it via hardware, because it is software. As we said,

we tried it and did not explain the method. How will we settle this thing? We will do it together, God willing. Keep you followers before we turn off the device. Brothers, let us show you the problem. Don't worry, let's press the device for a while and see what happens to young people The board is in maintenance mode. Let us go directly to the desktop and open the Board View of this board. We will also open Sketch or the general plan of this

board. Let us come directly to the table or the IDE table and type in the search engine or press on Control F and type IDE and do a search. We will come and search for the ID card of this motherboard. This is the ID table, as you can see. We will close the search and come to see the logical cases that arise. Of course, there is a tablet in the hands. What we will care about is the case that specializes in removing the RAM, as

you can see. The special cases in the hands, this is the case of the board, my hands on the DI-Only, is what we will care about because it is the case that specializes in removing the internal RAM, as you can see here. DIM-Only is required. We deal with it and four resistors. These four resistors are logical states. They do not have to be the first resistor, which is RC16. 12 It must be sufficient that if it is zero, as you see, RC 16 10 must be sufficient that if it is also zero, RC 168 must be the logical condition that does not have one , or it must be sufficient that if is HI and we have RC and A 3, it must be sufficient that if according to the logical condition explained so that the board turns into Put DIM-Only or work from the RAM slot only and remove the built-in RAM inside the motherboard or on the motherboard. We will fail. We will apply a process or

apply the conditions for operating the DEM-Only mode. I must fulfill these four conditions, meaning these are the four resistors. This first resistance must be Activated, if the second resistance is Activated, if the third resistance is suffices, then High, and the fourth resistance is suffices, even if it survives. We know the situation, so we can get it on RC16 12 Control F, and we are looking for RC16. 12 Move it,

search, search, search, we will see here the resistance on the same page under the Cases table, the money of the resistors, the VALAR C 16 12, it must be sufficient that if, then in order for it to be sufficient that if, this path must be connected to this resistance with the ground, so this resistance must be present in order to achieve the zero condition, such as It is not shown in Type A. This means that this is the first case. Why is DEM or ONLY in order for it to be here? Sufficiently, if it must be this resistance. Zero and therefore it is connected to the ground, as is clear here. This resistance must be present in order for the condition to be fulfilled. Why must it be present? This path for this resistance comes connected to the ground in this area, so let us go and see it on the diagram. Sorry, the board view, so we search for this resistance in the board view control or We stick it to this area. This area is on the other side. Let us go to

microscope mode for a few seconds. This is the treated side. We do not want to flip it over. On the other side in this way, we come to take a function point from which we start to find this resistance, and as you see here, it is also visible in front of you. Place the desktop on the screen so that you can see where the resistance is going in the scope mode, brothers, so that we can strain this resistance that is shown as you see here on the board view. There is a point indicative of it, which is this

large IC that says UTBM1, and it is exactly here on the board, as you can see. Uti BM 1 here we come to this area near it on this page. We will come and see if we have this IC here that is not there, which is a hexapod AC, which is exactly here. We have it on the diagram. We are interested in this resistance, which

is exactly 16 12. Here is the area. Close to this hexapod IC, of ​​course, here we have a capacitor, and here we have a resistance that does not exist, and this is the resistance that we are interested in. It is what became called RC 16 12, and as you can see above it, it is a capacitor, and there are two resistances here, so it is this resistance. In order for it to be sufficient, it must be present as we saw on the diagram. It will be connected to the rhubarb, and therefore the condition is not fulfilled, so we will leave it as it is. We look for the next resistance and go to the chart. We will

come to see the next resistance. On desktop mode, the next resistance is necessary. It is also called Active Anlo, and its name is RC16 10. RC 16 10. Here it is exactly under RC 16 10. Here in this area, RC 16 10 must also be Active Anlo, and therefore it must be related to locusts. In order for it to be related to rhubarb, this resistance must be present, so let us go look. For the resistance

of the board view, we write RC 16 10 Of course, the resistance is also close in the same way. It is here under the hood. We come looking for it under the microscope . The resistance is exactly the same. This is the triple or hexagonal ice. Sorry, and here we have a capacitor. Let's go down here. We have a resistance that does not exist. Here we have a resistance that does not exist, and this is the resistance that is concerned,

or the one in question, or What is meant here, and as you can see underneath, is another resistance here that is surrounded by an algebra, so this resistance must be present in order for it to exist. It is sufficient that if this resistance actually exists, then if this resistance fulfills the condition, then we are happy to leave it as it is and then come to the third resistance. We go to the diagram again and come to see what the condition of the third resistance is. The third resistance, which is RC 168, is supposed to be “sufficiency” that “this” means the end. The resistance must be connected to the voltage, not the ground, so in order for us to be sure, we must This resistance, let's see where RC 1608 is. We look for it. Here, RC 168, where is RC 16.

[Music] Eight rows . Right here, RC 1608. This resistance must be present in this area in order for it to be sufficient. This means that the resistance with the upper end must be present. So that what is active is that this is connected to the voltage and its condition is met, so we go to the board view as well. Let us go to the board Phew and we are looking for RC 16 8. Where is it? It is on the other side, close to the processor, so we go to the other end, which is close to the processor, and we go to the microscope. We turn the board on the other end like this,

and we come to this place that is close to the processor. Here we must have said that 168 is present. Until you are satisfied that this is in the resistor, where is it according to the board view, as is clear before you, exactly the second resistor of the four resistors that are here, these are the four elements. The second resistor here

is present if it fulfills the condition, and it is sufficient that this is connected to the positive terminal and not the ground. So, this third resistor fulfills the condition. Let us go again to the tactic and go and see the fourth resistance and what is the status of the fourth resistor in relation to DEM Only, which is RC and A. 3 It must be sufficient that if it means zero, then this resistance must be connected to ground, so go to RC and F We search for it under RC, A3 , RC, A3 , Control, FRC, Th. Search here exactly. This is RC and A3. It must be shoulder to shoulder, as we said. Therefore, it must be located in this area in order for it to be related to rhubarb, so let us go and see it to see it on. Board View, we take it as a copy,

download it below and go to the Board View, search for it here, control paste, RC one Three also happened to the other side of the board as you can see, so let us go to the scope mode and turn the board to the other side. Let us see where the resistance is exactly. We put this down under the screen. The resistor is now under the IC, UTP, or this IC is now under it. Of course not. Here, but in this area, this is the first resistance area that we need here, like three of your components here, or five of them here on the chart, one where? 3 It has five components and underneath them is the resistance that is here, as you can see. We need this resistance to be sufficient. If it is present, it will be connected to the rhubarb, which is not present. So we need to put a resistance here. How will it go? How will we do this thing? We must replace the resistance with it.

The region must exist in order for it to be sufficient. If the element does not exist, then we need to change it, change its logical state, so let us go to the diagram again. Quickly, this is the disktop. We will go to the diagram. This diagram is like, see in front of you, brothers. Its status is the status it currently has on the board. It is sufficient in this. So, this is the resistance above, take it down, we take it from shoulder to shoulder, then we move it to the bottom

until it becomes shoulder. If this path is one, then suffice here. If this is here, suffice. If there is the resistance that is RC 16 6, then we will take it as RC 16 6. We will search for it on the board view control FRC 16 0.

We will search for it and we will see the resistor that is exactly in its row and the one that is on our side. To put the scope, as is clear before you, the resistance in this case, suffice with that, and we want it, suffice. So we can take the resistance from here and put it here, so let you follow, and now this circuit has become Enlow after transferring the resistance from the upper area here, and we separated this path and connected it to the ground, so it became sufficient that if, which is what is required for us until the condition is fulfilled, is the DEM or ONLY, which is the fourth case, or the resistance.

Fourth, its logical state was supposed to be zero, so in this state we have completed all the conditions until we cancel or work. Disbel Bit n RAM and we activate slots only, and in this case we are finished, so let us go to test the board and see if the problem is solved or not, so stay tuned, young man. Of course, as you can see here, I connected the board to its place and assembled it temporarily, and we connected the original SSD that was missing, because I was suspected of doing so. The SD card is damaged, so since it did not

produce any results, by canceling the RAM, we returned the power The original SD card belongs to the device, and here we connected a 4 GB RAM that was already available, so you had four integrated on the board, and here there were four external ones, so the total had 8 GB. Currently, the board is ready. We will examine it and try the result of the work, so let us come and connect the charger. We connect the charger to the device. It turned on automatically because we had removed the battery. RTC This thing is logical and I show the picture as you can see. Let us see the RAM It is supposed to read 4 GB, not 8 GB, because we have removed the built-in RAM on the board, and this is the original Windows computer, which meant we had the problem. And as you can see here, the computer’s RAM is only 4 GB, if the device comes to deal with the external RAM and does not come to deal with it. With the built-in RAM on the board currently, let us come and see the device. If

we perform a stress operation on the device, the same problem will occur or not, of course. The device just clicked for less than three or four minutes, and it sorted and beautified completely. Currently, we have the time on the device at 16:55, so let us see if we leave it until 17:00 whether there will be problems or not. So let you follow the inspection process. I will speed up the inspection process for you with montage so that you do not get bored. By watching the result, of course, stay tuned, if you notice that the watch came from the internet So it became 17 and 43, and this is the correct one . So let us keep it up to 17 and 45 so that the result of the test is clear to us as you see, brothers. After a period of time has passed, the temperature maintains itself. The

processing temperature is in the fifties and the device works with high performance without any problems and it did not produce any damage to the screen or It happened with any freezing process, and thus we solved the problem of this device. Of course, this model is from Lenovo has these problems frequently, and this is one of the problems they call chronic, or common problems, or common voltage. Of course, there are several types of boards for this model. Make sure that you apply the cancellation process directly to the diagram so that you do not have errors in the cancellation process, and of course, as we mentioned in At the beginning of the video, the method of removing the built-in RAM via software will not work, or via BIOS it will not work.

With this model, it is best to cancel it via hardware, as we did in this video, and we have reached the end of the video. If you liked the video, do not forget to like the video, subscribe to the channel, and activate the bell button so that you receive all new updates, as if you were Saif Qadawi from Qadawi channel. May God protect you.

2024-12-30 19:08

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