1-1761845-8

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Memory Connectors - Inline Module Sockets

The 1-1761845-8 application field and working principle are an example of memory connectors, inline module sockets specifically. Inline module sockets are a form of memory connectors consisting of a row of electrical contacts typically found along one side of the connector. Connectivity is provided by having two interface sets, a task of either plugging modules together, or used for attaching cables to devices with the mating connector.

These connectors are commonly used in computers, coordinating the flow of information throughout, enabling the communication pathways between multiple components. They often work in conjunction with other memory connectors, such as memory modules and memory slots. In the case of the 1-1761845-8 application field and working principle, the inline module socket is specifically used to enable communication between a central processing device and a memory module. This particular type of socket is generally found on motherboards, used for transferring data from the CPU to the RAM.

When plugged in, the socket creates a connection point between the two devices, formed by a series of pins. These pins establish an electrical contact between the device, allowing data signals to be sent and received between the two. The 1-1761845-8 socket, specifically, has forty eight pins, although this can vary depending on the application and the individual devices.

The 1-1761845-8 socket is also an example of a ‘flanged socket’, which features an additional layer of protection for the underlying pins. This protective layer is referred to as an ‘external ground staking’, and acts as a peripheral shield for the pins. This is needed on such a socket, due to the increased number of pins and the length of the underlying cables which connect the pins to the device.

The underlying principles behind the 1-1761845-8 socket are, for the most part, similar to those of any other memory connector. The process of connecting the two devices involves the use of pins, electric signals, and an attachment point specific to the socket size. In the case of the 1-1761845-8 socket, the maximum frequency of the system for data exchange is no higher than MHz. The size of the connector helps to determine the speed and frequency of data transmission, and ultimately dictates the type of system that can be used.

It is important that the socket is correctly installed and maintained in order to ensure that it functions as intended. Failure to properly secure the connectors could lead to a disruption in data flow, and therefore may result in slower data transmission speeds or even complete loss of data. As with any electrical connection, it is important that the socket is well-maintained to ensure optimal performance. Due to the number of pins on the 1-1761845-8 socket, the potential for overloading due to too many connections is much higher than other forms of memory connectors, making it important to ensure that the connector is adequately protected.

In conclusion, the 1-1761845-8 application field and working principle are a example of a type of memory connector, a inline module socket. These sockets are found on motherboards and used to enable communication between a central processing device and a memory module. They feature a row of pins to provide electrical contact between the two devices and often feature an external ground staking as a form of additional protection. The underlying principles of any memory connector are similar and involve the use of pins, electric signals and attachment points. It is important to ensure that the socket is adequately maintained, as it can impact the data transmission rate of the system.

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