Transition Networks P332MF quick start Establishing a Telnet Connection, P330IPaddress

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Establishing a Telnet Connection

4.At the prompt, type:

set interface inband <vlan> <ip_address> <netmask> Replace <vlan>, <ip_address> and <netmask> with the VLAN, IP address, and net mask of the stack.

5.Press Enter to save the IP address and net mask.

6.At the prompt, type reset. Type y and press Enter to reset the stack. After the Reset, log in again as described above.

-At the prompt, type set ip route <dest> <gateway> and replace <dest> and <gateway> with the destination and gateway IP addresses.

Establishing a Telnet Connection

Perform the following steps to establish a Telnet connection to the P330 for configuration of Stack or Router parameters. You can Telnet the Stack Master IP address:

1.Connect your station to the network.

2.Verify that you can communicate with the Avaya P330 by pinging the IP of the Avaya P330. If there is no response using ping, check the IP address and default gateway of both the Avaya P330 and the station.

Tip:

The Avaya P330 default IP address is 149.49.32.134 and the default subnet mask is 255.255.255.0.

3.From the Microsoft Windows taskbar of your PC click Start and then Run (or from the DOS prompt of your PC), then start the Telnet session by typing: telnet

<P330_IP_address>

For example: telnet 149.49.32.134

4.If the IP Address in the Telnet command is the IP address of the stack, then connection is established with the Switch CLI entity of the Master module.

The “Welcome to P330” screen appears

5.Enter the default name root at the Login name prompt.

6.Enter the User Level password root in lower case letters (do not use uppercase letters) at the Password prompt.

The User level prompt will appear when you have established communications with the Avaya P330.

You can now configure the Avaya P330 stack and change its IP address.

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Contents Avaya P332MF Stackable Switch Quick Start for Hardware InstallationNm 860 nm DBm Nm 1360 nm Nm 1570 nm Unpack the Device Contents Before you Start Defining the InstallationGathering Information Preparing Contacts you might needChoosing the Installation Site Preparing Installation FilesPreparing Needed Tools Environmental Requirements Condition Acceptable values Power RequirementsTip Building a stackC363T-PWR C364T-PWR Stack without C360 Stack with C360 SwitchStack Master election rules C364T-PWR Page Equipment Unpack the DeviceDocumentation Avaya P330 Documentation and Utilities CD Page Closed hinged end Mount the DeviceOpen hinged end P330 AC version Power UpP330 DC version rear panel P330 DC versionP330 DC version Page Establishing a Console Connection Prepare for ConfigurationAssigning a P330 IP Stack Address P330IPaddress Establishing a Telnet ConnectionBasic configuration Configuring the SwitchAssigning the Stack IP Address Default Switch Settings Function Default Setting Avaya P330 Default SettingsDefault Port Settings Parameter Default Setting Overview Device ManagerSystem Requirements Device Manager Commands Configuring the Device ManagerOrder to Use the following command Running the Device ManagerWelcome Installing from the P330 Documentation and Utilities CD Installing the Java Plug-inInstall from your Local Web Site Install from the Avaya Web SiteDocumentation

P332MF specifications

The Transition Networks P332MF is a robust networking solution designed to enhance the connectivity and flexibility of modern Ethernet networks. This media converter operates efficiently between fiber and copper, facilitating seamless data transfer across different media types. With its compact form factor, the P332MF is well-suited for various applications in enterprise, industrial, and telecommunications environments.

One of the key features of the P332MF is its ability to support both 10/100 Mbps Fast Ethernet and 1 Gbps networks. This versatility ensures compatibility with a wide range of devices, making it an ideal solution for upgrading existing systems without the need for extensive hardware replacements. The P332MF supports both automatic and manual configuration, allowing users to optimize performance according to their specific needs.

Another significant characteristic of the P332MF is its use of advanced technologies such as Auto-Negotiation, which automatically detects and selects the optimal speed and duplex mode for connected devices. This ensures efficient utilization of network resources and minimizes downtime. Additionally, the unit supports extensive diagnostic capabilities, including Link Fault Pass-Through and LED status indicators, which help in monitoring the network's operational health and quickly troubleshooting any issues that may arise.

The P332MF is also designed with temperature-resistant components, making it suitable for deployment in harsh environments. With a wide operating temperature range and rugged casing, it can perform reliably in outdoor applications or in industrial settings where conditions may vary significantly.

Moreover, the transition from copper to fiber connectivity helps in extending the reach of networks beyond conventional distances. The ability to cover long distances while maintaining data integrity is crucial for organizations looking to implement scalable networking solutions.

With its energy-efficient design, the P332MF contributes to lower operational costs, making it an environmentally friendly choice for businesses aiming to reduce their carbon footprint. In summary, the Transition Networks P332MF stands out as a versatile and reliable media converter, making it a valuable asset for any organization looking to enhance their networking infrastructure. Its combination of performance, reliability, and ease of use makes it a worthwhile investment for current and future networking needs.