18CHAPTER 1: INTRODUCING THE SUPERSTACK 3 SWITCH 4400

Default Settings Table 6 shows the default settings for the Switch 4400:

Table 6 Default Settings

Feature

Switch 4400

 

 

Automatic IP Configuration

Enabled

Port Status

Enabled

Port Speed

10/100 Mbps ports are auto-negotiated

Duplex Mode

All fixed 10BASE-T and 100BASE-TX ports are

 

auto-negotiated

Flow Control

Enabled in half duplex

 

Auto-negotiated in full duplex

Broadcast Storm Control

Enabled

Virtual LANs (VLANs)

All ports belong to the untagged Default VLAN

 

(VLAN 1) with 802.1Q learning operational

IP Multicast Filtering

Filtering enabled

Rapid Spanning Tree Protocol

Enabled

 

Fast Start:

 

Enabled on front panel ports

 

Disabled on rear panel port

RMON Alarm

Enabled

Smart Auto-Sensing

Enabled

Webcache Support

Disabled

Quality of Service (QoS)

All ports prioritize NBX VoIP traffic (LAN and IP).

 

All ports set to “best effort” for all other traffic.

 

 

If you initialize a Switch unit by selecting System > Control > Initialize in the Web interface or by entering system control initialize in the Command Line Interface, the following settings are retained to allow you to connect to and manage the Switch:

IP Address

Subnet Mask

Default Router

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Image 18
3Com 3C172203, 3C17204 manual Default Settings shows the default settings for the Switch

3C17204, 3C172203 specifications

The 3Com 3C172203 and 3C17204 are part of the 3Com series of networking products that have made significant contributions to local area networks (LANs) and enterprise connectivity. While they may not be as widely recognized today as newer technologies, their features, technologies, and characteristics played an essential role in enhancing network performance and reliability during their peak usage.

One of the defining features of the 3Com 3C172203 and 3C17204 is their support for Ethernet networking, which was pivotal in establishing fast and reliable communication between devices on a network. These products typically supported both 10Base-T and 100Base-TX standards, providing a flexible transition from older networks to faster Ethernet speeds. This backward compatibility ensured that organizations could upgrade their networks incrementally without needing a complete overhaul, thereby preserving their existing investments in infrastructure.

Both models also supported features designed to optimize network performance and provide enhanced management capabilities. For instance, built-in diagnostic features enabled network administrators to troubleshoot connection issues more effectively, thereby reducing downtime. Additionally, these devices incorporated intelligent switching capabilities that could manage data flow efficiently, prioritizing traffic and optimizing available bandwidth to ensure a smooth user experience, even under heavy load.

In terms of physical design, the 3C172203 and 3C17204 were built with a focus on durability. These units often featured robust metal enclosures suitable for various environments, from office spaces to more demanding industrial settings. Furthermore, their compact design allowed for easy integration into existing network setups without requiring significant rack space, making them an attractive option for enterprises looking to maximize their networking capabilities.

Security features were also a consideration in the design of these networking devices. They implemented basic security protocols to safeguard the integrity of data transmitted across the network, ensuring that unauthorized access was minimized and overall network security was enhanced.

In conclusion, the 3Com 3C172203 and 3C17204 represent an era of networking technology characterized by their support for Ethernet standards, intelligent switching capabilities, robust design, and essential management features. These products were integral in facilitating the growth of LANs and laid the groundwork for the advanced networking solutions that followed in the years ahead. While newer technologies have emerged since then, the fundamental principles established by devices like the 3C172203 and 3C17204 continue to influence contemporary networking designs.