Allied Telesis manual AT-9000/28 Gigabit Ethernet ecoSwitch Installation Guide

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AT-9000/28 Gigabit Ethernet ecoSwitch Installation Guide

sending data. This can occur under several circumstances. For example, if two end nodes are operating at different speeds, the switch, while transferring data between the end nodes, might need to instruct the faster end node to stop transmitting data to allow the slower end node to catch up. An example of this would be when a server operating at 100 Mbps is sending data to a workstation operating at only 10 Mbps.

How a switch signals an end node to stop transmitting data differs depending on the speed and duplex mode of the end node and switch port. A twisted pair port operating at 100 Mbps and half-duplex mode will stop an end node from transmitting data by forcing a collision. A collision on an Ethernet network occurs when two end nodes attempt to transmit data using the same data link at the same time. A collision causes end nodes to stop sending data. When the switch needs to stop a 100 Mbps, half-duplex end node from transmitting data, it forces a collision on the data link, which stops the end node. When the switch is ready to receive data again, the switch stops forcing collisions. This is referred to as back pressure.

A port operating at 100 Mbps and full-duplex mode uses PAUSE frames, as specified in the IEEE 802.3x standard, to stop the transmission of data from an end node. Whenever the switch wants an end node to stop transmitting data, it issues this frame. The frame instructs the end node to cease transmission. The switch continues to issue PAUSE frames until it is ready again to receive data from the end node. This is referred to as flow control.

The AT-9000/28 Gigabit Ethernet ecoSwitch supports back pressure flow control in half duplex mode and pause frame flow control in full duplex mode.

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Contents Installation Guide Page Electrical Safety and Emissions Standards Translated Safety Statements Contents Page Preface Symbol Meaning Description Safety Symbols Used in this DocumentWhere to Find Web-based Guides Contacting Allied Telesis Management Software UpdatesChapter OverviewSwitch Features AT-9000/28 Front and Back PanelsTwisted Pair Ports Gigabit Ethernet PortsUplink Ports LED LEDsRJ-45 Port LEDs & Mode Switch FDX Link LEDs Front Panel ecoSwitch EcoSwitchMAC Address Table Ethernet Switching BasicsMDI/MDI-X AT-9000/28 Gigabit Ethernet ecoSwitch Installation Guide Overview Installing the Switch Reviewing Safety Precautions AT-9000/28 Gigabit Ethernet ecoSwitch Installation Guide Selecting a Site Twisted Pair Cable Specifications Optional Transceiver Twisted Pair and Fiber Optic Cable SpecificationsUnpacking the Switch Attaching Rack-Mount Brackets Installing the Switch in a RackMounting the Switch in a Rack Installing an SFP Transceiver Installing Optional Transceivers1457 Cabling the Twisted Pair or Fiber Optic Ports Applying AC Power Starting a Local Management Session Management Software User’s Guide Warranty Registration Installing the Switch Troubleshooting Power LED is Off Twisted Pair Port Link LED is Off Fiber Optic Port Link LED is Off Cannot Establish a Local Out-of-Band Management Session Troubleshooting Appendix a Physical SpecificationsEnvironmental Specifications Power SpecificationsCompliance Standards Safety and Electromagnetic Emissions Certifications10/100/1000Base-T Twisted Pair Port Connectors Pin Signal Console Port Pinouts
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AT-9000/28 specifications

The Allied Telesis AT-9000/28 is a versatile and robust network switch designed for organizations seeking to enhance their networking capability. This Layer 2 managed switch delivers a high degree of performance and reliability, making it an ideal choice for businesses that require a seamless network experience.

One of the main features of the AT-9000/28 is its 28 ports, which include 24 Fast Ethernet ports and 4 Gigabit Ethernet uplink ports. This allows for flexible network configuration and scalability, accommodating both wired and wireless devices efficiently. The switch also supports auto-negotiation and auto-MDI/MDI-X, which simplifies installation and connectivity by automatically detecting and configuring the appropriate settings.

The AT-9000/28 employs advanced switching technologies, such as IEEE 802.1Q VLAN tagging, which enables the segregation of traffic for improved security and performance. This feature is crucial for businesses that require data isolation between different departments or user groups. In addition, the switch supports quality of service (QoS) protocols, allowing for traffic prioritization. This is particularly beneficial for organizations that handle multimedia applications or VoIP services that demand reliable bandwidth.

Another significant characteristic of the AT-9000/28 is its support for port mirroring. This capability is essential for network monitoring and troubleshooting, as it allows administrators to track and analyze network traffic efficiently. Furthermore, the switch supports multiple user authentication methods, including RADIUS and TACACS+, thus enhancing network security.

The AT-9000/28 is built with energy efficiency in mind, featuring Energy Efficient Ethernet (EEE) technology. This reduces power consumption during periods of low traffic without compromising performance, which aids in lowering overall operational costs.

In terms of management, the AT-9000/28 offers versatile management options, including a web-based GUI, Command Line Interface (CLI), and SNMP support. This flexibility enables network administrators to configure, monitor, and troubleshoot the switch easily.

Overall, the Allied Telesis AT-9000/28 is a reliable switch well-suited for a variety of network environments. Its combination of performance, security features, and energy efficiency makes it an excellent choice for organizations looking to optimize their network infrastructure. With robust capabilities and advanced technologies, the AT-9000/28 stands out as a valuable addition to any networking setup.
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