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Free- Exam Objective 3.1 – Dumps4shared

A plus 220-1001 – Exam Objective 3.1

A+ Exam Objective 3.1

3.1 Explain basic cable types, their features, and their purpose.

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Welcome to Exam Notes by Dumps4shared! In this article, we will cover Core 1 objective 3.1 Explain cable types, their features, and their purpose.

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Sub objective 3.1 rehashes some of the concepts covered in 2.1, instead focusing here more on the cable types themselves such as their construction, bandwidth, and transmission limitations. Also discussed in this section are impediments to overall signal quality and safety concerns.

Beginning with fiber optics, there is a good deal of material
you will be exposed to. An earlier section covered some of the connection types
so apologies for any repetition. In this objective, the content will be more
specification oriented and will cover questions such as “what is the maximum
cable length?” and “what speeds does cable X support?” Err on the side of
preparation. One question could be the difference between success and failure.
Having said that…here we go!

Twisted Pair

Here, we look at the foundation and in many cases, the best
solution, for your connections. Most of this is worth knowing for your general
working knowledge base as well as for the test.

All of the following cable tables consist of some form of
twisted pair cable. Cables can be broken into two classes: shielded twisted
pair (STP) and unshielded twisted pair (UTP).


The difference between the two cable types is in the internal
construction of the cable, specifically the amount of insulation or shielding
surrounding each internal cable pair. Each internal pair is twisted using a specified
number of twists per inch. This reduces the possibility of the pairs being
parallel to each other and prevents crosstalk.


CAT3 – Used
in the early days, twisted pair implementations of this type use up to six wires
or conductors. The most common use of CAT3 is the telephone which uses two pairs
for each phone connection. This means the cable itself can support two phone

CAT5 – Getting
harder to find and no longer installed, this cable rating uses four pairs and
can support up to 100Mbps transmission speeds with a maximum cable length of
100 meters (328 feet). You can get higher speeds in real world applications but
for the purpose of A+, remember the specification described here.

CAT5e – This
cable is known as CAT5 Enhanced where the enhancement refers to reduced
crosstalk. This doesn’t sound like a big deal until you look at the speed
improvement. How does 10 times faster sound? CAT5e supports gigabit ethernet (1000Mbps)!
This can be attributed to a stricter attention to the number of twists per inch
in the pairs. Remember, your hardware has to support the speed. It’s not a
magic cable. CAT5e supports 1Gbps with a maximum cable length of 90 meters (295

now we’re cooking! CAT6 supports 10Gbps at a frequency of 250 Mhz. These speeds
can be attributed to a further reduction in crosstalk. While maintaining the
same external RJ-45 form, the connector and cable are engineered to further
isolate the cables from each other, resulting in the higher throughput.


The wires are arranged in the connector to allow a slight, yet significant
separation compared with CAT5 wires, which run straight, horizontal, and
adjacent to each other. As you know, parallel cables will practically guarantee
crosstalk. The maximum length for a CAT6 is 90 meters with an additional 10
meters for a patch cable.

CAT6e – This
enhancement doubles the transmission frequency to 500 MHz and restores the
traditional segment length to 100 meters (328 feet). This is technically not a standard
but CAT6e is widely recognized and observed.

CAT7 – This
performance standard increases the transmission frequency to 600 MHz and
provides a more reliable and durable cable than its predecessors. CAT7 wraps
the entire insulated pair with an additional layer, wrapping the whole cable
bundle to provide an additional layer of shielding.


RG-6 (Radio Grade-6) cables have a variety of uses although they
are used mainly in communication. Construction can vary somewhat by the manufacturer,
but all RG-6 cables consist of a solid copper core encased in a plastic
insulating sleeve, which is then covered by a wire mesh (sometimes foil) that
insulates the cable from noise and provides grounding. All of this is contained
inside a plastic jacket. On RG-6 and RG-59 cables, an F-type connector is used to
terminate the connection. RG-6 is becoming the preferred cable type for cable
television (CATV) installations.

RG 6 cable

RG-59 (Radio Grade-59) coaxial cables were once heavily used in CATV
installations. The construction is identical to the RG-6 except the RG-59 uses
a thinner core. The RG numbering system uses increasing numbers to represent the
increasing size of the cores, making the RG-6 considerably thicker than the
RG-59. Both cable types use F-type terminators.

RG 59 Cable

This device will also split a cable. There are a few configurations available depending on your needs. However as you know, there is always a caveat. If you are splitting RJ-45, there should be no decrease in performance since you have 8 wires available and the connection will use 4 wires (normal) for the first PC and the other 4 for the second. However, there will be a problem if you split an RG-6 or RG-59 coaxial (TV) connection. The splitter will split the speed evenly to each device. Depending on the amount of signal you have to begin with, one split generally isn’t a problem. However, your next split will take the 50% it receives and send 25% each to the downline devices. Image quality or performance issues may arise at this point.

Cable Jackets

Safety is your number one concern when running network cabling. This
concerns not only the usual such as dangling cables or running too close to
power lines, but also the materials you are using. The construction of the network
cable you are running is something you may not consider, but when examining
cables you will find that the outer sheath generally consists of one or two
types of material, PVC (PolyVinylChloride) or Plenum grade. Incorrect usage of
these two types could result in you having to rewire your entire installation.
PVC is cheaper and is perfectly suitable for patch cables and exposed wiring,
but once you run inside a dropped ceiling or any location that moves air,
plenum grade cabling is required by most states. PVC releases toxic fumes when
ignited and it is easily combustible. Plenum cable is less flammable than PVC
and mandatory wherever ventilation is present. Plenum cable will be
clearly marked.

Fiber Optic

Fiber optic transmissions use pulses of lights for signaling which
are then sent over plastic or glass strands. The glass medium (fiber) is
susceptible to breakage and signal loss if it is bent over a certain radius which
is dependent on the thickness of the fiber. Fiber optic cable should never be
coiled tightly.

Fiber detail

The fiber core is protected using a plastic sheath wrapped in
synthetic strength fibers, which give the cable resistance to breakage. A plastic
outer sheath completes the wire. If there is any concern about moisture seeping
into the cable, a synthetic gel is used to fill any gaps and protect the fiber.

Connector Types

We will discuss the connector types covered in your objectives. The benefits
of using Fiber optic cable versus copper are plentiful. Each connector can be
configured to use single-mode or multimode. A few major benefits are shown

  • Fiber has a
    broader bandwidth and is capable of handling more discrete channels at a
    higher speed. Fiber is immune to electromagnetic interference which cause signal
  • Fiber suffers
    less signal loss (attenuation) over distance.
  • Fiber cannot
    be “tapped” providing increased security over copper.

ST- The ST (Straight Tip) connector is one of the longstanding connector types. You will see this in the field and you should be able to recognize it on sight.

ST Fiber Connector

Helpful identification points to remember are the BNC type
connector and the straight tip on the fiber.

SC- The SC (Subscriber Connector) has
also been in use for some time and is a very reliable and stable snap-in
connector that offers low signal loss along with ease of use. You may sometimes
see this connector referred to as a standard connector or a square connector
because of its shape.

SC Fiber Connector

LC- The LC connector is a newer design
relative to the others. You may see it referred to as a Local Connector, Lucent
Connector, or even a Little Connector. The main advantage of this connector is
its size. The LC connector is about half the size of the SC connector but
otherwise completely comparable.

LC Fiber Connector

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Twisted Pair Connectors and
Ethernet Wiring

Now we’ll look at the copper network cable types. Once the most
exhaustive connection method you would need to know for A+, the 802.3 series of
cables are now being replaced by Fiber and Wireless. Nevertheless, 802.3 cables
are still heavily used in the field with many networks running RJ-45 and wireless
networks covering the same areas. We will now look at the two main twisted pair
implementations: RJ-11 and RJ-45. Here is how the connectors compare.

T – 568 A & B detail for
CompTIA A+ 220-1001

Changes in network hardware have made it possible for this
connector to reach speeds of 100Mbps. As the technology has advanced, even
greater speeds can be attained by making enhancements to the internal
configuration of the connector and the cable while leaving the original shape
and size of the connector unchanged.


Another network cable option is Thinnet or the RG-58 variant.

RG-58 Coaxial

This 10BASE2 connector and cable were harder to manage than its
10BASET cousin. It used BNC connectors and a somewhat less manageable shielded
copper core cable. RG-58 matched the 10Mbps speed and had a longer range, but
it was difficult to implement the required bus topology and required a T
connection at each host, along with termination at the cable ends, to prevent
signal reflection.

F- Connector

Your objectives call for knowledge of the F-Type connector. This
connector is not as much a network connector as it is a video connector. Your
Home Media Center PC will require this connector in order to connect your cable
or antenna system to it.

F-Type Connector

An RG-6 cable uses an F-type connector. It is similar to BNC,
however the F-type connector screws onto the component, creating a connection where
a failure point will most likely be the cable itself rather than at the
connection point. The connection is strong and extremely unlikely to pull out.

Video Cables

We’ll discuss display connector types and cables. When using
today’s PCs, the flat panel monitor is the way to go. When working in the field
however, you will encounter a mix of older CRT (Cathode Ray Tube) monitors and TFT
(Thin Film Transistor) flat panels which have a clear crisp resolution and deep
rich colors. Most of the improvements you see in monitors today are the result
of the greater number of pixels in the display combined with the tens of
thousands of colors each individual pixel can produce. The color bit depth of
the earliest monitors, or the number of colors the monitor can display, was 16
which was pretty good for 1984. 

But now each individual pixel can produce over 16.5 million
colors, making graphics look beautiful, realistic, and lifelike. So what does
this have to do with connectors? When you think about it, the original monitors
were monochromatic and as a result, didn’t have a heavy data load. These early
monitors would only need to show mostly text and one color over black. As the
display complexity increased, new interfaces were designed to support the
increased amount of data.

DVI D – I – A

We will discuss the connectors that you need to know. We’ll look
first at the DVI connector and cable. This connector comes in three
configurations and is capable of carrying digital signals, analog signals, or
both depending on the type. DVI-D carries digital signals only, DVI-A carries
analog signals only, and DVI-I carries digital and/or analog signals.

VGA (HD15), RCA, & BNC

The naming of the VGA connector has been updated to include HD-15
or DB-15, signifying the high density capabilities of the connector and the cable.
VGA is a 15-pin male connector although some older, high-end PCs used 5 BNC
coaxial connectors, with each BNC cable carrying one color or synchronization
signal, to improve picture quality. RCA cables have been used to carry analog
component video.

DisplayPort & miniHDMI

The DisplayPort interface and cable are designed to replace the
older VGA and DVI connections. An interesting note is that on a DisplayPort
adapter, you will often find a VGA or DVI interface on it for flexibility.

The newest video interface introduced is HDMI (High Definition
Multimedia Interface). This evolution of video controller is also capable of
carrying device control information to compatible devices, allowing you to
control your video player, game system, monitor, and multichannel audio
amplifier through a single device via the HDMI connector. The HDMI connector
and cable are available in two configurations, standard and miniHDMI (these are
compared in the table). Often, you will find the standard HDMI connector on a PC
or monitor and the miniHDMI connector on a camera or gaming system.


Currently we have USB 3.0, running at 5Gbps, which is fast! However,
faster still is the Thunderbolt card connection. For a time, Thunderbolt was
only available to Mac users. Fortunately, Thunderbolt is available to all. Thunderbolt
takes advantage of its low-latency/ high-bandwidth design to achieve
theoretical speeds of 20 Gb/sec, through two channels, although your mileage
may vary. This technology has been crucial to the 4K/UHD revolution. The 4K/2K
maximum resolution is 4096 x 2160 and is the maximum resolution of 4K Ultra HD.
4K Ultra HD should be seen to be fully appreciated as it is similar to your
first HD TV experience, but times FOUR!!!

PCIe x1 Internal Thunderbolt card

Display cable types

For the A+ test, you will be expected to know about the following
cable types. You will also need to be able to identify the pre-USB mouse and
keyboard connectors that use the miniDIN 6-pin connector.

connector types and cables

• Multipurpose cables

dongle is a connector that allows a peripheral device to connect with
other devices. An example is an RJ-45 dongle that
has PC compatible connectors. Shown below is an RJ-45-to-Thunderbolt dongle
that we’ll discuss later. It might be a little hard to make out but notice the
small Thunderbolt logo on top of the smaller connector to the PC.

Thunderbolt Ethernet Adapter by

When Wi-Fi was still a novelty for the average consumer, Wi-Fi
 permitted Wi-Fi access to devices that didn’t originally
have it. When 802.11b devices needed to be upgraded to 802.11g or 802.11n,
Wi-Fi dongles were used to accomplish this. Bluetooth adaptation is another
area where rather than buying a new laptop, a user can simply add a Bluetooth dongle.
For Mac users, there is a USB alternative through the DisplayPort. Here
is a full-size look at a laptop’s DisplayPort.

Display port

Technically, the Mini-DisplayPort is still a dongle in the
general sense of the term. The DisplayPort interface allows ultra-high
resolution, 3D, and data connectivity but not sound as of this current version of
the test objectives.

During the lifespan of DisplayPort, another high resolution
technology called Thunderbolt was released . To avoid confusion,
Thunderbolt connectors were designed to support all the features of DisplayPort.
When connected, Thunderbolt has the advantage of chaining Thunderbolt devices
together through a single interface. The Thunderbolt data transfer rate exceeds
USB 3.0 and FireWire 800. The Thunderbolt (PCI-Express) signaling uses two
dedicated channels which provide isolation for the send and receive signals.
While being physically identical to the DisplayPort, the Thunderbolt connector
and port can be identified by the Thunderbolt logo present on both the
connector and the port.

– Device cables and connectors


This connection uses Serial Advanced Technology Attachment
(SATA) for internal drive connections such as hard disks and optical drives. SATA
is the replacement for Parallel ATA (PATA) which was the preceding primary
drive connection method. Because of its flexibility, the SATA interface can
connect externally to the machine using an eSATA port. In the table, you can
see the internal SATA data and power connectors. Many SATA devices ship with a
MOLEX-to-SATA adapter cable for power. eSATA connects external devices. You can
distinguish SATA from eSATA by noting the L-shaped SATA connector. The eSATA
connector has a straight rectangular interface and an external rib on each side
of the plug which prevents improper insertion.

USB Connectors

Next we see USB and the various cable configurations. First is
the USB A Male connector which is the machine end of a standard USB 1.0-to-2.0
cable. The USB 3.0 cable end will be identical in size and shape, but is
colored blue to differentiate it from the older versions. USB extension cables
are available and will have a USB A Male connector on one end and a USB A
Female on the other end.

On a standard USB 1.0-to-2.0 cable, the devices will connect
using a USB B Male connector. As the selection of USB connectable devices grew,
these devices also became smaller which called for a new, smaller connection
type. For example, the USB A connector ended up being larger than the new cell
phones and tablets that it needed to connect to. These smaller connectors
started with the Mini A connection which have been deprecated in favor of the
Micro connection. The Micro connection is half the height of the Mini, making
the Micro connectors 1.8mm high.

Table 1: Device
cables and connectors

Identify Device Cables
& connectors

Note: The IDE connector (aka PATA) is a legacy hard disk
connector. Newer PCs will not have this connection type. If you are dealing
with an older machine, you will need to recognize the cable as shown below.

or Parallel ATA connector

Adapters and

USB A to USB B & USB to Ethernet

In this section, we will look at the adapters and converters
that can be used to modify the connection type from one to another. You will
find two basic configurations: one single adapter where each end has the
desired connector and the other configuration where both connections are attached
to a short length of cable (a dongle).  

Adapters and converters are extremely useful, with USB type
adapters and converters being the most common. You can find a USB adapter or
converter to modify practically anything. Consider a one piece USB adapter that
converts an RJ-45 Ethernet cable to USB. A little device like this can save you
from having to replace the hardware in a desktop or can help you add functionality
to a machine that does not have an Ethernet adapter. One of the earliest
adapters of this type was the PS/2-to-USB adapter. This came with new (at the
time) mice, allowing you to connect a USB mouse via your PS/2 connection. During
this time, USB ports were uncommon and if you had USB capability on your
machine, you probably only had two ports.

If you need to change the “gender” of a USB port, it is possible
using the USB B-to-A Adapter which is shown in the table below. This helps if
you need to connect to a USB B device and, like most of us, have a cable collection
consisting of only USB A cables. You will be all set with no loss in capability
or performance! This is also indispensable if you need to add length to an
existing cable.

DVI to HDMI and to
VGA & Thunderbolt to DVI

Now we’ll move onto video converters and adapters. There is no
shortage of video converters and adapters although your only real concern is to
not send digital signals over an analog connection. This is not really an issue
for the most part as the signal is converted before transmission and these
adapters are not manufactured. This is a good way to differentiate between
these components.

An adapter is a component that basically rewires the connection
from one pin configuration and shape to the desired pinout and shape. A converter
adapts the configuration AND modifies the electrical properties of the signal
being carried to the desired format.

For example, DVI-to-VGA is an area where the digital versus
analog issue will present itself. VGA uses analog signaling whereas DVI is
capable of either. You have to be careful. The VGA (or DE-15) interface is
an analog-only connection type and digital signals are not handled. Make sure
you have a DVI-A connection which is analog only or as a second choice, DVI-I
which is integrated to carry either digital or analog. In the latter case, look
at to the graphics adapter settings to be sure. That aside, all you need is the
little adapter shown below. There are also digital-to-analog and vice-versa
converters available should you find yourself stuck.

Next, let’s consider DVI to HDMI. These data formats are
compatible although DVI is unable to carry the audio signal.

Next, let’s consider HDMI to VGA. Since we’ve established that
VGA is analog and that HDMI is digital, a converter is needed as you can see by
the small brick at the cable end of the image. However, it gets the job done!

The last entry in our list of goodies is the Thunderbolt-to-DVI
adapter. This is an interesting case because of the multiport compatibility
between the Thunderbolt interface and the MiniDisplayPort (mDP). These two
interfaces are very closely designed and are almost, but not completely,
interchangeable. Thunderbolt uses the same connector as the mDP and for the
purposes of this comparison, the differences are insignificant. Since the DVI
connection and the Thunderbolt/mDP connection are both digital, only an adapter
is necessary. No converter is needed.

Table 2: Adapters
and converters

Identify Adapters and converters 

That’s everything for objective 3.1! Good luck on the test.

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