Basics of networking
3. Data units in Networks
3.6. Summary
Copper utilities
|
BENEFITS |
FAILURES |
|
Cheap to buy |
Short distances between network nodes |
|
Simple fault diagnosis and repair |
Susceptible to electromagnetic interference |
|
Hassle-free assembly and installation |
Slower than fibre optics |
Fibre optic media
|
BENEFITS |
FAILURES |
|
Definitely faster |
Complicated assembly and installation |
|
Virtually immune to electromagnetic interference |
Definitely more expensive to buy because of the equipment needed |
|
Transfers data over long distances |
Signal blur |
Wireless media
Several solutions are used for wireless media, but only one of them, radio waves, is actually used. The well-known Wi-Fi technology uses this medium for data transmission.
Radio waves are electromagnetic radiation in the frequency range from 3 Hz to approximately 3 THz. Radio wave sources can be natural or man-made, such as those emitted by mobile radio stations. Their main purpose is to transmit information and, in the case of telecommunications, data. There are several types of radio waves, with long, medium, short and ultra-short waves being used for data transmission.
When discussing radio waves, it is worth mentioning the standards used in wireless networks. They are important in terms of choosing the right Wi-Fi router.
|
STANDARD |
FREQUENCY |
MAXIMUM THROUGHPUT |
|
802.11a |
5 GHz |
54 Mbps |
|
802.11b |
2.4 GHz |
11 Mbps |
|
802.11g |
2.4 GHz |
54 Mbps |
|
802.11n |
2.4 GHz | 5 GHz |
150 Mbps | 600 Mbps |
|
802.11ac |
5 GHz |
Several Gbps |