(c) PPPoE: If user selects PPPoE mode, following items will be displayed.

-DNS Server Obtained Mode: When SIP Phone is in DHCP or PPPoE mode, user can determine DNS address is obtained from server or set manually.

-Primary DNS Server: If user determines to set DNS address manually, please set Primary Domain Name Server IP address here.

-Secondary DNS Server: If user determines to set DNS address manually, please set Secondary Domain Name Server IP address here.

-PPPoE User ID: Set PPPoE authentication User Name.

-PPPoE User Password: Set PPPoE authentication password.

-PPPoE Retry: Enable/Disable auto-retry function after PPPoE disconnection. If user enables this function, after PPPoE being disconnected, SIP Phone will automatically reboot to re-connect, and after reboot, if SIP Phone still can’t get contact with server, SIP Phone will keep trying to connect. After re-connected, SIP Phone will also restart system. On the other hand, if user disables this function, SIP Phone won’t reboot and keep trying to connect.

-Send PPPoE Echo Request: Enable or Disable PPPoE Echo function. If user enabled this feature, SIP Phone will send out echo request to check PPPoE connection status. Please notice that if user disables this function, SIP Phone cannot detect if PPPoE connection is still alive or not.

-HTTP Port for WEB Management: Set port number for user to configure SIP Phone via WEB management. Default value is 80.

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MicroNet Technology SP5101 manual

SP5101 specifications

MicroNet Technology SP5101 is an advanced and versatile integrated circuit designed primarily for a wide range of networking applications. It serves as a vital component for data communication, offering robust features that make it suitable for both consumer and industrial products.

One of the main features of the SP5101 is its high-speed performance, which enables efficient data transmission over various mediums. The device supports multiple communication protocols, allowing it to interface seamlessly with other network components. This flexibility enhances the device's applicability in different environments, such as smart homes, IoT systems, and enterprise-level networks.

The SP5101 is built upon cutting-edge technologies that ensure reliable operation. It incorporates advanced analog and digital circuitry, which helps maintain signal integrity even in environments with considerable electromagnetic interference. This is crucial for maintaining performance in complex networking setups where multiple devices are transmitting data simultaneously.

In terms of connectivity, the SP5101 provides multiple ports that can support different data rates, catering to various bandwidth requirements. This multi-port capability allows for simultaneous connections, which is particularly important in applications where multiple data streams need to be managed efficiently. Additionally, the chip supports both wired and wireless communications, making it a flexible choice for diverse networking scenarios.

The power efficiency of the SP5101 is another standout characteristic. Designed to minimize energy consumption, it is well-suited for battery-operated devices, which is a key consideration in modern technology development. This focus on energy efficiency contributes not only to longer device lifetimes but also to environmental sustainability initiatives aimed at reducing electronic waste.

Security features are also integrated into the SP5101, providing a layer of protection for data being transmitted across networks. This is increasingly important in today’s landscape, where cybersecurity threats are prevalent. The device’s architecture includes encryption capabilities that ensure data integrity and confidentiality during transmission.

Overall, MicroNet Technology’s SP5101 presents a comprehensive solution for networking needs, combining speed, flexibility, energy efficiency, and security. It empowers developers and engineers to create innovative networking solutions that can meet the demands of an ever-evolving technological landscape, positioning itself as an essential component for future advancements in connectivity.