C H A P T E R 2

Dial Feature Card and Carrier Card Guidelines

This chapter includes the following sections:

Overview, page 2-1

Online Insertion and Removal (OIR) of DFCs, page 2-2

Removing and Installing Populated Carrier Cards, page 2-2

Getting Help, page 2-7

Where to Go Next, page 2-7

Overview

Cisco AS5350 Chassis

The Cisco AS5350 universal gateway chassis has a motherboard, high-speed backplane, and two backplane slots. One backplane slot accepts one dial feature card (DFC) carrier card and the other backplane slot accepts one DFC.

Cisco AS5400 Chassis

The Cisco AS5400 universal gateway chassis has a motherboard, high-speed backplane, and four backplane slots. Three backplane slots accept DFC carrier cards and the other backplane slot accepts one DFC.

Dial Feature Cards

Each DFC carrier card accepts two DFCs which allow online insertion and removal (OIR). (See Figure 2-1.)

Each DFC is a 5.1 x 13 inch PCI based interface board. The following is a brief description of the trunk types supported:

North American robbed-bit signaling (RBS) is supported on T1 trunks, including a variety of North American RBS protocol, framing, and encoding types on these trunks.

CAS is supported for E1 trunks, with R2 signaling.

Many countries require an E1 R2 variant. Per-country defaults are provided for supervisory and inter-register signaling.

The CT3 DFC provides physical line termination for a channelized T3 ingress trunk line, and it uses an onboard multiplexer to multiplex 28 channelized T1 lines into a single channelized T3 line.

Cisco AS5350 and Cisco AS5400 Universal Gateway Card Installation Guide

 

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Cisco Systems manual Dial Feature Card and Carrier Card Guidelines, Overview, Cisco AS5350 Chassis, Cisco AS5400 Chassis

AS5350, AS5400 specifications

Cisco Systems has long been a leader in the networking and telecommunications field, and its AS5800 series of routers exemplify this tradition. The AS5800, along with the AS5850, AS5350, AS5400, and AS5300, provides robust solutions for service providers and enterprise-level networking applications. Each of these models has distinct features and characteristics that cater to the evolving demands of internet traffic and data processing.

The Cisco AS5800 is designed for high-capacity routing and optimized for broadband services. It supports a wide range of services, including voice, data, and video applications, making it a versatile option for service providers looking to deliver integrated solutions. It is equipped with advanced quality of service (QoS) features that ensure bandwidth is allocated effectively, holding strong even under heavy traffic conditions.

In comparison, the AS5850 offers superior processing capabilities and is typically utilized in larger-scale implementations. This model supports high-density interfaces, allowing numerous connections without compromising performance. Its architecture includes enhanced MPLS (Multiprotocol Label Switching) support, enabling more efficient traffic management and better utilization of network resources.

The AS5350 is known for its scalability and energy efficiency, ideal for voice-over-IP (VoIP) and media gateway applications. It supports various telephony features, such as protocol interworking and transcoding, making it a preferred choice for organizations focusing on digital voice technologies. The AS5300, while slightly older, continues to be a valuable asset for less demanding networks, offering reliable performance with VoIP capabilities and basic data applications.

The AS5400 bridges the gap between high-performance routing and operational efficiency. It incorporates Cisco's proprietary technologies to ensure seamless connectivity and robust failover systems. This model is highly regarded for its security features, protecting network integrity and providing peace of mind for businesses relying on sensitive data transfer.

Overall, Cisco’s AS5800 series showcases a progressive evolution of routing capabilities with enhanced features tailored for resilience, scalability, and performance. These routers not only address the technical needs of modern networks but also strategically position organizations for future growth in an increasingly digital world. Each model, with its unique attributes, continues to support the varied demands of global communication infrastructures.