Use the following table to find the installation and configuration steps that are
required for your implementation of the Cisco ASA 5500 series adaptive security
The adaptive security appliance implementations included in this document are as
The Cisco ASA 5550 adaptive security appliance is designed to deliver maximum
throughput when configured according to the guidelines described in this chapter.
This manual contains notices which you should observe to ensure your own personal safety, as well as to protect the product and connected equipment. These notices are highlighted in the manual by a warning triangle and are marked as follows according to the level of danger: Danger indicates that death, severe personal injury, or substantial property damage will result if proper precautions are not taken.
Learning objectives of this chapter include: Identify the basic network media required to make a LAN connection; identify the types of connections for intermediate and end device connections in a LAN; design an addressing scheme for an inter-network and assign ranges for hosts, network devices and the router interface; compare and contrast the importance of network designs.
This chapter include objectives: Identify the basic network media required to make a LAN connection; identify the types of connections for intermediate and end device connections in a LAN; design an addressing scheme for an inter-network and assign ranges for hosts, network devices and the router interface; compare and contrast the importance of network designs.
The main contents of this chapter include all of the following: Network interface card, comparing ethernet media requirements, differentiating between connections, unshielded Twisted-Pair Cable,... Inviting you refer lecture.
Identify the basic network media required to make a LAN connection. Identify the types of connections for intermediate and end device connections in a LAN. – Identify the pin out configurations for straight-through and crossover cables. Identify the different cabling types, standards and ports used for WAN connections. Define the role of device management connections when using Cisco equipment. Design an addressing scheme for an inter-network and assign ranges for hosts, network devices and the router interface. ...
An electrical contact is defined as the interface between the current-carrying members of electrical/
electronic devices that assure the continuity of electric circuit, and the unit containing the
interface. The current-carrying members in contact, often made of solids, are called contact
members or contact parts. The contact members connected to the positive and negative circuit
clamps are called the anode and cathode, respectively.
This lab focuses on the ability to connect the physical cabling between Ethernet LAN devices such
as hubs and switches and the appropriate Ethernet interface on a router. The computer(s) and router
should be preconfigured with the correct IP network settings. Start this lab with the computer(s),
router and hub or switch all turned off and unplugged.
The NS2 is a two reader panel providing access control for up
to two doors through the use of Wiegand readers.
The NS2 may be used as a standalone panel with independent
card and transaction storage or, with a software upgrade, as a
fully monitored online access control device. Communication
to the front-end computer is achieved through an RS-232 serial
cable (included with installation kit) or an optional RS-485
interface. Each RS-485 interface is capable of communicating
with up to 31 panels.
The NS2 is designed for tile mount using the ENC10 enclosure.
A console cable is necessary to establish a console session in order to allow checking or changing
the configuration of the router. The following resources will be required:
• Workstation with a serial interface
• Cisco Router
• Console or rollover cable for connecting the workstation to the router
This lab will focus on the ability to connect a PC to a router or a switch in order to establish a console
session and observe the user interface. A console session allows the user to check or change the
configuration of the switch or router and is the simplest method of connecting to one of these
This lab should be performed twice, once with a router and once with a switch to see the differences
between the user interfaces. Start this lab with the equipment turned off and with cabling
disconnected. Work in teams of two with one for the router and one for...
Juniper Networks EX4500 Ethernet Switches provide high performance, scalable
connectivity, and carrier-class reliability for high-density environments such as
campus-aggregation and data-center networks.You can manage EX4500 switches using the same interfaces that you use for managing
other devices running the Juniper Networks Junos operating system (Junos OS)—the
command-line interface (CLI) and the J-Web graphical interface
This convenient guide provides ordering information for dual
BNC coaxial cross-connect jumpers on this page and patch
cords on the reverse side.
Dual BNC coaxial cross-connect jumpers provide maximum
cable management for panels using miniature 735 cable. The
factory tested and installed BNC connectors provide a true 75
Ohm interface, resulting in the significant reduction of
impedance and improved signal flow.
To provide the highest quality product, all cross-connect
jumpers and patch cords manufactured by ADC pass rigorous
qualification testing before it is approved for shipment....
This lab connects two routers together using directly attached cables to simulate a WAN link. This
allows the routers to be configured and tested as though they were geographically separated. This
simulated WAN link takes the place of the service providers network and can be thought of as a
CSU/DSU eliminator. The first steps involve finding out what kind of connections are on the router
and what kind of cables are needed
ADC's OmniReach™ Indoor Fiber Distribution Terminal (iFDT) provides Multiple Dwelling Unit
(MDU) applications with a compact and secure family of enclosures by connecting fiber cables at
MDUs. The IFDT products utilize a rugged double-hinged design that effectively isolates the splicing
and cable termination in the rear compartment from the jumper interconnection in the front
compartment. Separating the cable splicing and termination into a layered configuration provides
a space efficient and craft friendly interface unit.
The SFET supports cross-connect
applications in which limited rack
space is available. The SFET can
be used as a demarcation or
interface point between service
providers and businesses/campuses,
or as an interface point between
outside plant (OSP) and intrafacility
fiber cable (IFC). The cross-connect
capability allows service
providers to turn up new services
The SFET has 32" (81.28 cm) of
vertical rack space and is
designed to accommodate
fiber connectors, splicing and
fiber management panels....
The first three chapters of this book dealt with an introduction to networking,
networking concepts, and IP addressing—basically theory and concept information.
In this chapter, I’ll begin discussing the applied side of networking. This chapter focuses
on installing your networking devices (switches and routers), cabling up your LAN and WAN
connections, and establishing a console connection so that you can put a configuration on these
Chapter summary: The network topology is the pattern used to connect computers and other devices with the cable or other network medium; the three primary LAN topologies are bus, star, and ring; UTP cable in the star topology is the most common network medium used today; a network interface adapter provides the interface that enables a computer to connect to a network; the network interface adapter and its driver implement the data-link layer protocol on the computer; hubs are devices that connect computers on a star or ring network.
Routing between the ISP and the campus router uses a static route between the ISP and the gateway, and a default route between the gateway and the ISP. The ISP connection to the Internet is identified by a loopback address on the ISP router.
Cable a network similar to the one in the diagram above. Any router that meets the interface requirements displayed on the above diagram may be used. This includes the following and any of