7-2199154-9 Connectors, Interconnects |
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Allicdata Part #: | 7-2199154-9-ND |
Manufacturer Part#: |
7-2199154-9 |
Price: | $ 0.64 |
Product Category: | Connectors, Interconnects |
Manufacturer: | TE Connectivity AMP Connectors |
Short Description: | DDR4 DIMM 288 PIN TH TYPE |
More Detail: | 288 Position DIMM DDR4 SDRAM Socket Through Hole |
DataSheet: | 7-2199154-9 Datasheet/PDF |
Quantity: | 1000 |
9600 +: | $ 0.57958 |
Series: | -- |
Packaging: | Tray |
Part Status: | Active |
Connector Style: | DIMM |
Number of Positions: | 288 |
Memory Type: | DDR4 SDRAM |
Standards: | -- |
Mounting Type: | Through Hole |
Features: | Board Lock, Latches |
Mounting Feature: | Normal, Standard - Top |
Contact Finish: | Gold |
Contact Finish Thickness: | 15.0µin (0.38µm) |
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Memory connectors, also known as inline module sockets, are devices that provide necessary connections between components in a memory system. They are available in a variety of shapes and sizes to accommodate various kinds of memory systems designs. In this article, we will explore the application field and working principle of the 7-2199154-9 model, an inline module socket.
Application field
Memory connectors are used in both industrial and consumer electronics. In the industrial space, they are widely used in high-end servers, workstations, and mainframes, all of which require reliable data transportation or expansion for memory storage. Also, computers for advanced applications such as gaming and 3D modeling require high-quality memory expansion components.
Traditional situations for memory connectors in the consumer space are personal computers, tablets, gaming systems, smartphones, televisions, and smart home systems. Furthermore, in order to keep up with the trend of increasing data storage needs, embedded systems with advanced features now often require memory expansion to provide extra capacity to support the various processing tasks.
The 7-2199154-9 inline module socket is an optimal choice to facilitate data connections between memory systems due to its simplicity, reliability, and cost-effectiveness. Its small size makes it suitable for space-sensitive applications. Besides, this model is guaranteed to provide up to a maximum data transfer rate of 8.5 gigabytes per second.
Working Principle
The 7-2199154-9 model is based on the inline memory module (IMM) design, a method of connecting components without the use of additional cabling. This method saves money on materials and reduces assembly time and waste. The memory connector consists of two sections - the module and the socket - connected by a slots on each section. The module slots receive pins from the socket, creating an electrical connection between the device and the module.
The module spaces, known as socket rows, determine the maximum amount of memory that can be transferred. Each row is further divided into "columns" that allow for a variety of lengths of memory (ranging from 8 to 256 bytes). Lines represent the number of bits per byte in the memory module. These lines must be connected in specific combinations in order to send and receive the desired data.
The 7-2199154-9 also contains two other components: a pair of guards and a dielectric spacer. The guards are placed around each side of the socket rows to physically secure the module to the socket. The dielectric spacer is used to reduce heat and improve signal integrity while also preventing excessive movement of components.
The 7-2199154-9 memory connector is rated for up to 8.5 gigabytes per second, making it an excellent choice for systems that require high levels of data transfer. Additionally, the connector is equipped with built-in EMI protection, which helps to reduce interference from external electromagnetic sources. With this, users can expect superior performance and reliable connection.
Conclusion
In conclusion, the 7-2199154-9 model of memory connector is a reliable and cost-effective solution for connecting memory systems. Its small size makes it suitable for space-sensitive applications, while the built-in EMI protection ensures greater performance and connection reliability. Additionally, its achieving a maximum data transfer rate of 8.5 gigabytes per second makes it an ideal choice for applications that require speed and scalability. Finally, its robust construction and easy installation shorten assembly time and minimize the risk of failure.
The specific data is subject to PDF, and the above content is for reference
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