Appendix C IR-IP Interface Module

ASM-60Installation and Operation Manual

 

 

Connecting the Telnet Host

Before starting the management and configuration activities, it is necessary to establish IP communication between your Telnet host and the IR-IP interface module. For this purpose, it is necessary to provide a communication path.

Because of the method used to assign an IP address to IR-IP Ethernet port, it is recommended to connect the Telnet host directly to the IP router 10BASE-T connector. This is made by connecting an Ethernet cross cable between the Ethernet connector of the Telnet host and the IR-IP connector.

However, you may also connect through a common LAN: in this case, connect your Telnet host and IR-IP to Ethernet hub ports using straight cables.

Preliminary Telnet Host Configuration

You can use the IP learning mechanism to configure the IP communication parameters of the IR-IP LAN interface. In this case, skip to the Assigning the Router LAN Interface Address section below.

If you prefer to use the factory-default parameters to establish IP communication between your Telnet host and IR-IP, configure the Telnet host as follows:

1.Temporarily configure the host IP address as 192.168.205.2.

2.The initial destination IP address to be used by the host is 192.168.205.1.

Note The first step in the preliminary configuration process is to assign the desired IP address to the LAN interface of the IR-IP interface module.

After an IP address is assigned and saved, you must change the destination IP address of the Telnet host to the new address, otherwise it is not possible to continue the configuration process. At the same time, you can also change the temporary IP address assigned to the host (192.168.205.2) back to its permanent address.

Assigning the Router LAN Interface Address

The IP address of the IR-IP LAN interface must be configured as part of the preliminary configuration process. To simplify this process, IR-IP includes a simple and convenient IP address learning mechanism.

The IP address can be configured and changed at any time, even after the complete IR-IP configuration process has been performed, because it does not affect other configuration parameters. Moreover, the IP subnet mask is automatically adapted to the new IP address.

IP Learning Mechanism

To simplify the configuration process, IR-IP has a special mechanism for configuring the IP address of its LAN interface. Setting section 1, called IP address learning, of the IR-IP DIP switch (Figure C-3)to ON enables this mechanism.

 

The IP learning mechanism enables IR-IP to learn its LAN interface IP address by

 

receiving frames sent by a ping utility to the prescribed LAN IP address.

Note

To use the IP learning mechanism, you do not need to know the current address of

 

 

IR-IP LAN interface, but only the prescribed IP address.

C-6

Performing Preliminary Configuration

Page 60
Image 60
RAD Data comm ASM-60 Connecting the Telnet Host, Preliminary Telnet Host Configuration, IP Learning Mechanism

ASM-60 specifications

The RAD Data Communications ASM-60 is a highly advanced access and service management platform designed to streamline the deployment and management of various telecommunications services. It is particularly well-suited for carrier-grade applications, offering a robust solution that meets the demands of modern communication networks. The ASM-60 integrates multiple functionalities, ensuring that service providers can efficiently manage their networks and deliver high-quality services to their customers.

One of the standout features of the ASM-60 is its versatility. It supports a wide range of technologies, including Ethernet, TDM, and IP-based services. This adaptability allows service providers to seamlessly integrate legacy systems with newer technologies, ensuring a smooth transition as networks evolve. The platform is equipped to handle both synchronous and asynchronous services, catering to diverse customer needs while maximizing operational efficiency.

Reliability is paramount in telecommunications, and the ASM-60 excels in this regard. It boasts built-in redundancy features, ensuring continuous operation even in the event of a hardware failure. The platform is designed with hot-swappable components, allowing for maintenance and upgrades without disrupting service. This characteristic makes it an ideal choice for mission-critical applications that require uninterrupted service delivery.

In terms of scalability, the ASM-60 offers a comprehensive solution for growing networks. With its modular design, service providers can easily expand their infrastructure as demand increases. This scalability ensures that organizations can effectively respond to changing market conditions and customer requirements, facilitating long-term growth.

Another significant aspect of the ASM-60 is its advanced management capabilities. The platform is equipped with a user-friendly interface that simplifies configuration, monitoring, and troubleshooting tasks. It supports various management protocols, including SNMP and Command Line Interface (CLI), enabling seamless integration with existing network management systems.

Security is also a critical consideration in the design of the ASM-60. It features multiple layers of security, including encryption and authentication protocols, to safeguard sensitive data. This commitment to security helps service providers maintain the integrity and confidentiality of their customers’ information.

In conclusion, the RAD Data Communications ASM-60 is a powerful access and service management platform that meets the diverse needs of modern telecommunications networks. With its versatility, reliability, scalability, advanced management capabilities, and robust security features, the ASM-60 is an ideal choice for service providers looking to enhance their operational efficiency and deliver top-notch services to their customers.