ch03-Networking Topologies, Connectors and Wiring Standards.ppt

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CYB201 – Network+

Chapter 3
Networking Connectors and Wiring Standards
CHAPTER 3: OBJECTIVES
 ✓2.0 Infrastructure
 ✓2.1 Given a scenario, deploy the appropriate cabling solution.
 Media types
 Copper
 UTP
 STP
 Coaxial
 Fiber
 Single-mode
 Multimode
 Plenum vs. PVC
 Connector types
 Copper
 RJ-45
 RJ-11
 BNC
 DB-9
 DB-25
 F-type

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PHYSICAL MEDIA

Let’s take a look at the three types of popular
cables used in modern networking designs:
 Coaxial
 Twisted pair
 Fiber optic

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COAX

 Coaxial cable, referred to as coax, contains a center
conductor made of copper that’s surrounded by a plastic
jacket with a braided shield over it.
 A plastic such as polyvinyl chloride (PVC, commonly
known as Teflon) covers this metal shield.
 The Teflon-type covering is frequently referred to as a
plenum-rated coating, and it’s often mandated by local or
municipal fire code when cable is hidden in walls and
ceilings.

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THINNET COAX

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BNC CONNECTORS
You can attach a BNC connector to the cable with a crimper that looks like a
weird pair of pliers and has a die to crimp the connector. A simple squeeze
crimps the connector to the cable.

You can use a BNC coupler to connect two male connectors together or two
female connectors together.

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 TWISTED-PAIR CABLE

 Twisted-pair cable consists of multiple individually insulated
wires that are twisted together in pairs.
 Sometimes a metallic shield is placed around them; hence the
name shielded twisted-pair (STP).
 Cable without outer shielding is called unshielded twisted-pair
(UTP), and it’s used in twisted-pair Ethernet (10Base-T,
100Base-TX, 1000Base-TX) networks.
 So why are the wires in this cable type twisted? Because when
electromagnetic signals are conducted on copper wires in close
proximity—like inside a cable—it causes interference called
crosstalk. Twisting two wires together as a pair minimizes
interference and even protects against interference from
outside sources.

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UNSHIELDED TWISTED-PAIR

This cable type is the most common today for the following reasons:
 It’s cheaper than other types of cabling.
 It’s easy to work with.
 It allows transmission rates that were impossible 10 years ago.
 UTP cable is rated in these categories:
 Cat1
 Cat2
 Cat3
 Cat4
 Cat5
 Cat5e
 Cat6
 Cat7
 Cat8

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CABLE CATEGORIES – NO LONGER USED
Category 1 Two twisted wire pairs (four wires). It's the oldest type and is only
voice grade—it isn't rated for data communication. People refer to it as plain old
telephone service (POTS). Not used for Networking
Category 2 Four twisted wire pairs (eight wires). It handles up to 4 Mbps, with a
frequency limitation of 10 MHz, and is now obsolete.
Category 3 Four twisted wire pairs (eight wires) with three twists per foot. This type
can handle transmissions up to 16 MHz. It was popular in the mid-1980s for up to 10
Mbps Ethernet, but it's now limited to telecommunication equipment and, again, is
obsolete for networks.
Category 4 Four twisted wire pairs (eight wires), rated for 20 MHz; also obsolete.

Category 5 Four twisted wire pairs (eight wires), used for 100BaseTX (two pair
wiring) and rated for 100 MHz.
CABLE CATEGORIES -
CURRENT
Category 7: Category 7 cable, Cat 7, allows 10 Gigabit Ethernet over 100
meters of copper cabling. The cable contains four twisted copper wire pairs,
just like the earlier standards.
RJ CONNECTORS

BNC connectors won't fit very
well on UTP cable, so you need
to use a registered jack (RJ)
connector, which you're familiar
with because most telephones
connect with them.
The connector used with UTP
cable is called RJ-11 for phones
that use four wires; RJ-45 has
four pairs (eight wires)

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RJ45 Pinouts
The pin-outs in an RJ-45 connector

BNC connectors won't fit very well on UTP cable, so you need to use a
registered jack (RJ) connector
FIBER OPTIC
 Because fiber-optic cable transmits digital signals
using light impulses rather than electricity, it’s
immune to EMI and RFI.
 The cable itself comes in either single-mode fiber
(SMF) or multimode fiber (MMF); the difference
between them is in the number of light rays (the
number of signals) they can carry. Multimode
fiber is most often used for shorter-distance
applications and single-mode fiber for spanning
longer distances.

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FIBER OPTIC

Although fiber-optic cable may sound like the solution to many
problems, it has pros and cons just like the other cable types.
Here are the pros:
 Is completely immune to EMI and RFI
 Can transmit up to 40 kilometers (about 25 miles)
And here are the cons:
 Is difficult to install
 Is more expensive then twisted-pair
 Troubleshooting equipment is more expensive then twisted-
pair test equipment
 Is harder to troubleshoot

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ST CONNECTOR EXAMPLES
The ST fiber-optic connector (developed by
AT&T) is one of the most widely used fiber-
optic connectors; it uses a BNC attachment
mechanism similar to thinnet's that makes
connections and disconnections fairly
frustration free.

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SC CONNECTOR EXAMPLES

The SC connector is
another type of fiber-optic
connector.
SC connectors are latched
—a mechanism holds the
connector in securely and
prevents it from falling out.

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 Fiber-optic transceivers can be either unidirectional (simplex) or
bidirectional (duplex).
Bidirectional communication is possible if the cable used is following
the EEE 802.3ah 1000BASE-BX10-D and 1000BASE-BX10-U
standards.
The communication over a single strand of fiber is achieved by
separating the transmission wavelength of the two devices

FIBRE-OPTIC TRANSCEIVERS
MT-RJ AND LC FIBER CONNECTORS

LC is a newer style of SFF fiber-optic
connector that's pulling ahead of the MT-
RJ. It's especially popular for use with
Fibre-Channel adapters (FCs) and is a
standard used for fast storage area
networks and Gigabit Ethernet adapters.

The MT-RJ fiber-optic
connector was the first
small form factor fiber-
optic connector to be
widely used, and it's only
one-third the size of the
SC and ST connectors it
most often replaces.

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MEDIA CONVERTERS
Sometimes, you'll need to convert from one media type to another.
Maybe you need to go from one mode of fiber to another mode, or
in an even more extreme case, you need to go from fiber to
Ethernet.
If you're faced with situations like these, you'll need to be familiar
with some of the more common media converters:
MEDIA CONVERTERS (CONT.)
BROADBAND OVER POWER LINE
SERIAL CABLES

Except for multimode fiber, all
the cable varieties talked
about so far are considered
serial cable types.
In network communications,
serial means that one bit after
another is sent out onto the
wire or fiber and interpreted
by a network card or other
type of interface on the other
end.
UNIVERSAL SERIAL BUS

Universal Serial Bus (USB) is now the built-in serial bus
used on most motherboards.
You usually get a maximum of 4 external USB interfaces,
but add-on adapters can take that up to as many as 16
serial interfaces.
USB can connect a maximum of 127 external devices,
and it's a much more flexible peripheral bus than either
serial or parallel.
CABLE PROPERTIES
Transmission Speeds
Distance

Duplex

Noise Immunity (Security, EMI)
Frequency
WIRING STANDARDS
There are different types of Ethernet wiring
standards available:
 T568B/A
 Straight-through cable
 Crossover cable
 Rolled cable (rollover)
 Hardware loopback

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STRAIGHT-THROUGH ETHERNET CABLE

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CROSSOVER CABLE

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ROLLOVER/ROLLED CABLE

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Cable Testing
What Cable would you use?

Switch Switch
What Cable would you use?
Router

Console
INSTALLING WIRING
DISTRIBUTIONS
 MDF/IDF
 The main distribution frame (MDF) is a wiring point that's generally used as a
reference point for telephone lines. It's also considered the WAN termination
point. It's installed in the building as part of the prewiring, and the internal
lines are connected to it. After that, all that's left is to connect the external
(telephone company) lines to the other side to complete the circuit.
 Demarc/Demarc Extension
 The demarc (short for demarcation) is the last point of responsibility for the
service provider. It's often at the MDF in your building connection, especially
if your building is large, but it's usually just an RJ-45 jack that your channel
service unit/data service unit (CSU/DSU) connects from your router to wide
area network (WAN) connections.
 Smart Jack
 A smart jack, also called a network interface device (NID) or network
interface unit (NIU), is owned by the PSTN and is a special network interface
that's often used between the service provider's network and the internal
network.

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110 block

A newer type of wiring distribution point
called a 110 block has replaced most
telephone wire installations and is also
used for computer networking. On one
side, wires are punched down; the other
side has RJ-11 (for phone) or RJ-45 (for
network) connections.
SUMMARY
 Summary
 Exam Essentials Section
 Written Labs
 Review Questions

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