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Pusan National University Data Communications School of Computer Science and Engineering Pusan National University Jeong Goo Kim Chapter 7 Transmission.

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Presentation on theme: "Pusan National University Data Communications School of Computer Science and Engineering Pusan National University Jeong Goo Kim Chapter 7 Transmission."— Presentation transcript:

1 Pusan National University Data Communications School of Computer Science and Engineering Pusan National University Jeong Goo Kim Chapter 7 Transmission Media

2 Advanced Broadcasting & Communications Lab. 2 power PNU 세계로 미래로 Ch. 7 Outline Outline 7.1 Introduction 7.2 Guided Media 7.3 Unguided Media

3 Advanced Broadcasting & Communications Lab. 3 power PNU 세계로 미래로 Ch. 7 Objective Objective Guided Media twisted-pair cables coaxial cables Unguided Media radio waves microwaves

4 Advanced Broadcasting & Communications Lab. 4 power PNU 세계로 미래로 7.1 Introduction Transmission media are actually located below the physical layer and are directly controlled by the physical layer. They belong to layer zero Fig. 7.1 Transmission media and physical layer

5 Advanced Broadcasting & Communications Lab. 5 power PNU 세계로 미래로 7.1 Introduction Fig. 7.2 Classes of Transmission media

6 Advanced Broadcasting & Communications Lab. 6 power PNU 세계로 미래로 7.2 Guided Media provide a conduit from one device to another. twisted-pair cable, coaxial cable, and fiber-optic cable. 7.2.1 Twisted-Pair Cable Two wires one carry signal the other is used as a ground reference Fig. 7.3 Twisted-pair cable

7 Advanced Broadcasting & Communications Lab. 7 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.4 UTP and STP cables Table 7.1 Categories of unshielded twisted-pair cables

8 Advanced Broadcasting & Communications Lab. 8 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.5 UTP Connectors Fig. 7.6 UTP Performance

9 Advanced Broadcasting & Communications Lab. 9 power PNU 세계로 미래로 7.2 Guided Media Applications DSL LAN 10Base-T (10 Mbps Baseband Twister-pair) 100Base-T (100 Mbps Baseband Twister-pair)

10 Advanced Broadcasting & Communications Lab. 10 power PNU 세계로 미래로 7.2 Guided Media 7.2.2 Coaxial Cable carries signals of higher frequency ranges than those in twisted pair cable has a central core conductor of solid or stranded wire (usually copper) enclosed in an insulating sheath Fig. 7.7 Coaxial cable

11 Advanced Broadcasting & Communications Lab. 11 power PNU 세계로 미래로 7.2 Guided Media Table 7.2 Categories of Coaxial Cable Fig. 7.8 BNC connectors

12 Advanced Broadcasting & Communications Lab. 12 power PNU 세계로 미래로 7.2 Guided Media Performance Fig. 7.9 Coaxial cable performance

13 Advanced Broadcasting & Communications Lab. 13 power PNU 세계로 미래로 7.2 Guided Media 7.2.3 Fiber-Optic Cable is made of glass or plastic and transmits signals in the form of light. Fig. 7.10 Banding of light ray

14 Advanced Broadcasting & Communications Lab. 14 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.11 Optical Fiber Fig. 7.12 Propagation Modes

15 Advanced Broadcasting & Communications Lab. 15 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.13 Modes

16 Advanced Broadcasting & Communications Lab. 16 power PNU 세계로 미래로 7.2 Guided Media Table 7.3 Fiber types

17 Advanced Broadcasting & Communications Lab. 17 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.14 Fiber connection Fig. 7.15 Fiber-optic cable connector

18 Advanced Broadcasting & Communications Lab. 18 power PNU 세계로 미래로 7.2 Guided Media Fig. 7.16 Optical fiber performance

19 Advanced Broadcasting & Communications Lab. 19 power PNU 세계로 미래로 7.2 Guided Media Advantage and Disadvantages of Optical Fiber Advantages Higher bandwidth Less signal attenuation Immunity to electromagnetic interference Resistance to corrosive materials Light weight Greater immunity to tapping Disadvantages Installation and maintenance Unidirectional light propagation Cost

20 Advanced Broadcasting & Communications Lab. 20 power PNU 세계로 미래로 7.3 Unguided Media transport waves without using a physical conductor. wireless communication Fig. 7.17 Electromagnetic spectrum for wireless communication

21 Advanced Broadcasting & Communications Lab. 21 power PNU 세계로 미래로 7.3 Unguided Media Fig. 7.18 Propagation methods

22 Advanced Broadcasting & Communications Lab. 22 power PNU 세계로 미래로 7.3 Unguided Media Table. 7.4 Bands

23 Advanced Broadcasting & Communications Lab. 23 power PNU 세계로 미래로 7.3 Unguided Media 7.3.1 Radio Waves electromagnetic waves ranging in frequencies between 3 kHz and 1 GHz are normally called radio waves. used for multicast communications. Fig. 7.19 Omnidirectional antenna

24 Advanced Broadcasting & Communications Lab. 24 power PNU 세계로 미래로 7.3 Unguided Media 7.3.2 Microwaves electromagnetic waves having frequencies between 1 and 300 GHz are called microwaves. used for unicast communications. Fig. 7.20 Unidirectional antenna

25 Advanced Broadcasting & Communications Lab. 25 power PNU 세계로 미래로 7.3 Unguided Media 7.3.3 Infrared with frequencies from 300 GHz to 400 THz (wavelengths from 1 mm to 770 nm) used for short-range communication. a short-range communication system in one room cannot be affected by another system in the next room.

26 Advanced Broadcasting & Communications Lab. 26 power PNU 세계로 미래로 Homework Homework Read textbook pp. 207-230 Next Lecture Chapter 8. Switching

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