Components — Data Connectivity

The (Transmission Control Protocol/Internet Protocol) is the lingua franca of the modern internet. It is often described via the four-layer model (Link, Internet, Transport, Application). At the Internet layer , the Internet Protocol (IP) provides connectionless, best-effort delivery of packets called datagrams. IP handles addressing and routing. Two versions dominate: IPv4 (32-bit addresses, e.g., 192.0.2.1) and the expanding IPv6 (128-bit addresses, providing an astronomically larger address space).

bridge the wireless and wired worlds. They convert 802.11 (Wi-Fi) frames to 802.3 (Ethernet) frames and vice versa. A WAP is essentially a switch port with a radio transceiver, managing multiple client connections, handling authentication, and negotiating data rates based on signal strength and noise. data connectivity components

, largely obsolete, were simple repeaters. They operated at the physical layer, blindly broadcasting any signal received on one port to all other ports. This led to constant collisions and security risks. The switch (or bridging hub) revolutionized LANs. Operating at the data link layer, a switch learns the MAC addresses of devices on each port and builds a forwarding table. It intelligently sends frames only to the port where the destination device resides, creating isolated collision domains and dramatically increasing efficiency. Modern switches also support Virtual LANs (VLANs), which logically partition a physical switch into multiple isolated broadcast domains, enhancing security and traffic management. IP handles addressing and routing