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Ieee – Asus USB-AC51 User Manual

Page 24

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IEEE

The Institute of Electrical and Electronics Engineers. The IEEE sets standards for

networking, including Ethernet LANs. IEEE standards ensure interoperability

between systems of the same type.

IEEE 802.11

IEEE 802.xx is a set of specifications for LANs from the Institute of Electrical

and Electronic Engineers (IEEE). Most wired networks conform to 802.3, the

specification for CSMA/CD based Ethernet networks or 802.5, the specification

for token ring networks. 802.11 defines the standard for wireless LANs

encompassing three incompatible (non-interoperable) technologies: Frequency

Hopping Spread Spectrum (FHSS), Direct Sequence Spread Spectrum (DSSS),

and Infrared. 802.11 specifies a carrier sense media access control and physical

layer specifications for 1 and 2 Mbps wireless LANs.

IEEE 802.11a (54Mbits/sec)

Compared with 802.11b: The 802.11b standard was designed to operate in

the 2.4GHz ISM (Industrial, Scientific and Medical) band using direct-sequence

spreadspectrum technology. The 802.11a standard, on the other hand, was

designed to operate in the more recently allocated 5-GHz UNII (Unlicensed

National Information Infrastructure) band. And unlike 802.11b, the 802.11a

standard departs from the traditional spread-spectrum technology, instead

using a frequency division multiplexing scheme that’s intended to be friendlier

to office environments.

The 802.11a standard, which supports data rates of up to 54 Mbps, is the Fast

Ethernet analog to 802.11b, which supports data rates of up to 11 Mbps. Like

Ethernet and Fast Ethernet, 802.11b and 802.11a use an identical MAC (Media

Access Control). However, while Fast Ethernet uses the same physical-layer

encoding scheme as Ethernet (only faster), 802.11a uses an entirely different

encoding scheme, called OFDM (orthogonal frequency division multiplexing).

The 802.11b spectrum is plagued by saturation from wireless phones,

microwave ovens and other emerging wireless technologies, such as Bluetooth.

In contrast, 802.11a spectrum is relatively free of interference.

The 802.11a standard gains some of its performance from the higher

frequencies at which it operates. The laws of information theory tie frequency,

radiated power and distance together in an inverse relationship. Thus, moving

up to the 5GHz spectrum from 2.4GHz will lead to shorter distances, given the

same radiated power and encoding scheme.