Categories
A+ 1001 Study Guide

A plus 220-1001 – Exam Objective 2.4 – Dumps4shared

A plus 220-1001 – Exam Objective 2.4

A+ Exam Objective 2.4

2.4 Compare and contrast wireless networking protocols.

Click here to go back to the A+ Main Domain 2.0 Table of Content

In this section, we will dissect CompTIA 220-901 sub objective
2.5 which deals with wireless encryption standards and encryption. The 802.11
family is an important area to understand and fundamentally is specification
based, consisting of alpha designations, frequencies, speeds, distances, and
common problems. These are all testable. We’ll also follow that up with covered
encryption types.

Standards

We will try to keep it simple while conveying the pertinent
information about the 802.11 a/b/g/n/ac family. This is your key to defining
the standard and its capabilities and compatibilities. Understand that
different countries have different regulations regarding radio power levels
(range) and the number of channels available for transmission. We will deal
exclusively with the US specification.

In the US, we have 11 channels available of the 14 possible in
the 2.4GHz frequency, of which only non-overlapping channels can be used.
Channel 14 is unavailable because it does not have the required channel
separation. Each transmission channel takes 20 – 22MHz and must be separated by
roughly 16 to 22MHz, leaving only three free channels for practical use. These free
channels are 1, 6 and 11 for 802.11b/g/n. In a pure 802.11n zone, 40MHz a
channel is used. This is easily understood in the graphic shown.

2.4 GHz channels

You can see if you used channel 4 with 802.11b/g/n, your
transmissions be corrupted by both channels 1 and 6. As a technician, this is
one of the settings you would check to resolve a Wi-Fi connection or quality
problem. Backward compatibility is also something to check. If you are using
802.11n in compatibility mode and your users are not getting the advertised
speeds, you can attribute this issue to the bandwidth reduction adjustments
needed to comply with the earlier standards. The only way to get the full value
of the “n” channel is to operate in 802.11n only mode and to upgrade the older
NICs. This is best conveyed in the following graphic if you consider that the
40MHz “n” channel is broken down to comply with the “b/g” modes when they are used.

Non overlapping channels

Frequencies

When we reference frequencies, the 2.4GHz frequency band is
everything between 2.4 and 2.5 GHz. The 5GHz frequency band is roughly
everything between 5.1 and 5.8GHz.

Now down to the specs.

802.11a

This standard is capable of 54Mbps transmissions of up to 50
meters in the 5GHz band. This is essentially a deprecated standard.

802.11b

This is the first widely adopted Wi-Fi standard. This offers
11Mbps speed with a distance of 100 meters, with direct line of sight
(outdoors), in the more crowded 2.4 GHz band. It is susceptible to interference
from household devices such as cordless phones and microwave ovens.

802.11g

This standard is capable of 54 Mbps speed with a distance of up
to 100 meters outdoors in the 2.4GHz band.

802.11n

This standard is capable of speeds up to 600Mbps using up to
four emulated full-duplex Multi In Multi Out (MIMO) antennae. These antennae can
send and receive virtually simultaneously, using Time Division Multiplexing
(TDM) which slices the transmissions into imperceptible chunks that give the
impression of full-duplex. All 802.11 family standards are half-duplex. Before
this advancement, Wi-Fi signals did not use the multiplexing duplex and as a
result, only one party in the communication could send data at a time. TDM,
along with multiple antennae, greatly increased performance. 802.11n operates
in both the 2.4 and 5 GHz bands for backward compatibility. As with any
radio-based transmissions, the signal weakens as the distance from the
transmitter increases.

802.11ac

This is the latest implemented standard and can theoretically
reach speeds of up to 7 Gbps using up to eight antennae. The additional
antennae allow the 802.11ac standard to utilize a theoretical channel bandwidth
of 80 to 160 MHz.

80
80 MHz and 160 MHz are new with 802.11ac

802.11 ac covers the same distance as 802.11n. The maximum
distance is 70 meters indoors and 250 meters outdoors in the 5GHz band, making
it backwards compatible to 802.11n only. Interestingly, the signal strength
does not weaken at the outer perimeters of coverage. It’s all or nothing. By
default Wi-Fi signals are omni-directional as are the signals from a radio
station, distributing the signal evenly across the coverage area. 802.11ac
standardizes the use of beamforming technology which focuses the transmissions
directionally to active devices, strengthening the signal directionally as
opposed to the shotgun blast nature of traditional Wi-Fi. This gives each
device a longer, stronger, and faster signal that is less likely to encounter
significant interference.

Beamforming technology

Currently, the recipient of the transmission must support
beamforming for it to be effective.

Here’s a short table that summarizes most of the testable
material discussed above.

Wireless standards for A+ 220-1001
Sub-Objective 2.4

Bluetooth

Initial Bluetooth wireless connections were not as fast as its
contemporaries (initially 2MBs). Since that time, the ranges and speeds have
been increasing fairly steadily as shown in the table. Special protocol
features allow users to create Personal Area Networks (PAN).

Characteristics
of different Bluetooth versions

NFC

Let’s start with the Connection types available for mobile
devices and their accessories. We have already discussed Wi-Fi and Bluetooth in
detail (in prior ExamNotes) but there is a third type that you need to learn
about. This is Near Field Communication (NFC). NFC is not a new technology and
has experienced resurgence through the proliferation of mobile devices due to
its main security feature, its 10 cm transmission range. Attackers have to be almost
touching to be able to exchange data.

NFC can be used for tap and pay, which exchanges payment
information with a NFC capable reader at the cash register, as well as
exchanging contact information with friends or clients simply by tapping
compatible phones together. The ultimate business card!

RFID

For authentication/security purposes, Radio Frequency
Identification (RFID) can be used to transmit a security token wirelessly
without any additional user input. An RFID tag can also be used to track
inventory and many other objects including your pets!

Zigbee

In a nutshell, Zigbee is a PAN or wireless ad-hoc network.
It is simpler than Wi-Fi or Bluetooth. Zigbee is a low power, short range
solution that uses low bandwidth transmitting in the 5 GHz or 900 MHz bands with
20 meter indoor range. It is ideal for home automation and medical applications
because it creates a mesh network. Zigbee is incompatible with Z-Wave.

Z-Wave

Z-Wave is a competing home automation technology. Z-Wave
uses the 900 MHz band. It shares the low power and low data rate properties of
Zigbee but has a bit more range.

3G

3G is the third generation of mobile wireless technology. Compared
with 2G, its main benefits are higher speed (20 Mbps), better A/V capabilities,
and global roaming. Along with its voice and data capabilities, Internet
browsing was made possible on cellular devices.

4G

4G offers even faster connections, taking the buffering and
jitter out of streaming media.

LTE

LTE stands for Long Term Evolution as it pertains to mobile
data. While switching from 3G to 4G is a noticeable improvement, adding LTE to
4G provides data rates that are roughly ten times that of 3G.

5G

5G is where the fun starts! While not available at the time
of this writing, 5G should be spreading by the time you take the test. 5G
speeds will optimally be in the 500MBps range. This increase may cause users to
abandon their wired broadband connection in favor of 5G. Home routers offering
this speed will be available. Before you ditch your cable, consider that 5G
service will be costly.

That’s all for 220-1001 Sub-objective 2.4. Good luck on the test!

Click here to go back to the A+ Main Domain 2.0 Table of Content

Pass Your IT Certification Exams With Free Real Exam Dumps and Questions

Full Version 220-1001 Dumps