Disassembly

Figure 2 - 3

Memory Removal

Sequence

d. Pull the latch(es) on the memory sockets to release the module(s). e. The module will pop- up., and you can

remove the module.

7.For each module you want to replace, gently push the latches 9 and 10 toward the sides of the socket to release the module. Push the latches to release the second module if necessary.

8.The module 11 will pop-up, and you can remove it.

9.Insert the new module. The module will only fit one way as defined by the pin alignment.

10.Make sure the module is seated as far into the slot as it will go (DO NOT FORCE IT). The latches will click into place on the sides of the module. Make sure they are secure.

11.Reverse the procedures to put the computer back together (don’t forget to reconnect the fan cable), and do not forget all the screws. When you restart the computer the new memory configuration should be registered.

12.If the system doesn’t properly detect the new memory, and you are sure they are properly “seated”, you may need to run the Setup utility.

d.e.

2.Disassembly



Contact Warning

Be careful not to touch the metal pins on the module’s connecting edge. Even the clean- est hands have oils which can attract parti- cles, and degrade the

module’s perfor- mance.



14.Memory Module(s)

9

10

11

11

9

10

 

 

2 - 8 Removing the System Memory

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Intel LV22C Series, LV19C Series, LV19N Series, LV22N Series manual Disassembly, Memory Removal Sequence

LV19N Series, LV19C Series, LV22C Series, LV22N Series specifications

Intel has consistently pushed the boundaries of technology, and its LV22N, LV22C, LV19C, and LV19N series processors are prime examples of its commitment to innovation and performance. These processors are built to cater to a wide range of applications, from embedded systems to energy-efficient computing, making them versatile solutions for various industries.

The Intel LV22N Series stands out with its advanced fabrication technology, providing improved performance per watt compared to previous generations. With features such as enhanced multi-core processing capabilities, these processors are designed to handle demanding workloads effectively. The LV22N series supports Intel's latest architecture, allowing for increased cache sizes and memory bandwidth. This enhances data processing capabilities, making it ideal for edge computing and IoT applications. Precision timing and security features such as Intel Hardware Shield further bolster its reliability.

On the other hand, the LV22C Series is tailored for high-performance computing tasks. It supports Intel's deep learning and Artificial Intelligence (AI) capabilities, enabling developers to create smarter applications. The LV22C processors offer integrated graphics that deliver superior multimedia performance, ensuring smooth video playback and graphics rendering. These processors also come equipped with Intel’s Turbo Boost Technology, which optimizes performance by dynamically increasing clock speeds when necessary.

The LV19C Series targets energy-efficient solutions without sacrificing performance. This series is particularly beneficial for mobile applications, allowing devices to run longer on a single charge. With features like Dynamic Tuning Technology, LV19C processors adjust power consumption based on workload, which enhances battery life and thermal performance. This focus on efficiency helps reduce the total cost of ownership for devices used in various sectors.

Lastly, the LV19N Series combines low power consumption with high-performance capabilities. It's engineered for use in compact, thermal-constrained environments, making it an excellent choice for embedded systems. The LV19N processors incorporate advanced security features to safeguard data while offering reliable connectivity options for Internet of Things (IoT) deployments.

In summary, the Intel LV22N, LV22C, LV19C, and LV19N series processors represent a significant leap in technology, characterized by their performance, efficiency, and specialized features. With their diverse applications, these series provide solutions that accommodate the evolving demands of computing, making them indispensable in the modern technological landscape.