Allied Telesis AT-8000SSwitch

Switch Installation Guide

AT-8000S/48POE Front Panel

The following figure illustrates the AT-8000S/48POE front panel.

Figure 9: AT-8000S/48POE Front Panel

The AT-8000S/48 device front panel is configured as follows:

48 10/100Mbps Ports RJ-45 ports designated as 10/100Base-T. The RJ-45 ports are designated as ports Ports 1 - 48.

2 10/100/1000Base-T Copper Ports — There are two copper 10/100/100Base-T ports designated on the switch as ports 49R and 50R. These ports are paired with the two SFP slots designated on the switch as ports 49 and 50. Together these four ports form the Combo ports shown in Figure 9.

2 SFP Ports — There are two SFP slots which support either a 100Base-FX or a 1000Base-X (fiber) connection and are designated on the switch as ports 49 and 50. This SFP slot is paired with the two 10/100/ 1000Base-T copper ports which is designated on the switch as port 49R and 50R. Together these four ports form the Combo ports shown in Figure 9.

AT-8000S/48POE Back Panel

The following figure illustrates the AT-8000S/48POE back panel.

Figure 10: AT-8000S/48POE Back Panel

The AT-8000S/48POE back panel is configured as follows:

Power Connector — AC power supply interface.

2 Stacking Ports — Two RJ-45 ports device stacking.

Reset Button — Button to reset the device.

DB-9 Console port — An asynchronous serial console port supporting the RS-232 electrical specification. The port is used to connect the device to the console managing the device.

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Allied Telesis manual AT-8000S/48POE Front Panel, AT-8000S/48POE Back Panel

AT-8000S specifications

The Allied Telesis AT-8000S series switches are a range of advanced Layer 2 Ethernet switches designed for efficient networking in various environments. Engineered with performance, reliability, and cost-effectiveness in mind, these switches are ideal for businesses seeking to enhance their network infrastructure.

One of the main features of the AT-8000S series is its high-speed data forwarding capabilities. With support for 10/100/1000 Mbps Ethernet ports, these switches provide fast and reliable connections, enabling seamless data transfer and enhanced communication between devices. The non-blocking switching architecture ensures that full bandwidth is available at all times, maximizing throughput and reducing latency in network traffic.

The AT-8000S series incorporates advanced Layer 2 switching technologies, such as VLAN support, allowing users to segment network traffic for improved performance and security. Virtual Local Area Networks (VLANs) help isolate sensitive data and reduce unnecessary broadcast traffic, enhancing the overall performance of the network.

Quality of Service (QoS) is another significant feature integrated into these switches, prioritizing different classes of network traffic. This functionality ensures that critical applications receive the necessary bandwidth and minimal latency, which is imperative for voice over IP, video conferencing, and other latency-sensitive applications.

In terms of network management, the AT-8000S series provides a variety of options, including an intuitive web-based interface, SNMP support, and the ability to manage switch configurations through console access. This flexibility allows network administrators to monitor performance and manage configurations easily.

The switches are built for durability, featuring a robust design suitable for deployment in various environments, including temperature-sensitive areas. Power over Ethernet (PoE) capability is also available in certain models, allowing network devices like IP cameras and wireless access points to receive power through the same cable as data, simplifying installation and reducing clutter.

Allied Telesis emphasizes security within the AT-8000S series, with features such as port security, DHCP snooping, and IEEE 802.1X authentication to safeguard against unauthorized access and potential threats.

Overall, the Allied Telesis AT-8000S series provides a comprehensive networking solution tailored for modern business needs, combining performance, flexibility, and security to support a growing array of applications and devices within the network.