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思科网络技术学院理事会. 1 OSI Physical Layer Network Fundamentals – Chapter 8.

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Presentation on theme: "思科网络技术学院理事会. 1 OSI Physical Layer Network Fundamentals – Chapter 8."— Presentation transcript:

1 思科网络技术学院理事会. http://www.catc.edu.cn 1 OSI Physical Layer Network Fundamentals – Chapter 8

2 2 思科网络技术学院理事会. http://www.catc.edu.cn Objectives  Explain the role of Physical layer protocols and services in supporting communication across data networks. - Describe the role of signals used to represent bits as a frame as the frame is transported across the local media  Describe the purpose of Physical layer signaling and encoding as they are used in networks  Identify the basic characteristics of copper, fiber and wireless network media  Describe common uses of copper, fiber and wireless network media

3 3 思科网络技术学院理事会. http://www.catc.edu.cn Context Index  8.1 The Physical Layer – Communication Signals  8.2 Physical Signaling and Encoding: Representing Bits  8.3 Physical Media – Connecting Communication  8.4 Labs – Media Connectors

4 思科网络技术学院理事会. http://www.catc.edu.cn 4 8.1 The Physical Layer – Communication Signals

5 5 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.1 Physical Layer - Purpose  The OSI Physical layer provides the means to transport across the network media the bits that make up a Data Link layer frame.

6 6 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.1 Physical Layer - Purpose  The purpose of the Physical layer is to create the electrical, optical, or microwave signal that represents the bits in each frame.

7 7 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.2 Physical Layer - Operation  There are three basic forms of network media on which data is represented: - Copper cable - Fiber - Wireless

8 8 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.3 Physical Layer - Standards  Comparison of Physical layer standards and upper layer standards

9 9 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.3 Physical Layer - Standards  Standards for the Physical layer specify signal, connector, and cabling requirements.

10 10 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.3 Physical Layer - Standards  Standards for the Physical layer specify signal, connector, and cabling requirements.

11 11 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.3 Physical Layer - Standards  Standards for the Physical layer specify signal, connector, and cabling requirements.

12 12 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.3 Physical Layer - Standards  Standards for the Physical layer specify signal, connector, and cabling requirements.

13 13 思科网络技术学院理事会. http://www.catc.edu.cn 8.1.4 Physical Layer Fundamental Principles  The three fundamental functions of the Physical layer are: - The physical components - Data encoding - Signaling

14 思科网络技术学院理事会. http://www.catc.edu.cn 14 8.2 Physical Signaling and Encoding: Representing Bits

15 15 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.1 Signaling Bits for the Media  All communication from the human network becomes binary digits, which are transported individually across the physical media.  Bits are represented on the medium by changing one or more of the following characteristics of a signal: - Amplitude - Frequency - Phase

16 16 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.1 Signaling Bits for the Media  Method of signaling: - Non Return to Zero (NRZ) Signaling - Manchester Encoding - 4B/5B

17 17 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.2 Encoding – Grouping Bits  One way to provide frame detection is to begin each frame with a pattern of signals representing bits.

18 18 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.2 Encoding – Grouping Bits  A code group is a consecutive sequence of code bits that are interpreted and mapped as data bit patterns.  Advantages using code groups include: - Reducing bit level error - Limiting energy transmitted - D istinguish data from control - Better media error detection

19 19 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.3 Data carrying Capacity  Data transfer can be measured in three ways: - Bandwidth - Throughput - Goodput  Bandwidth Digital bandwidth measures the amount of information that can flow from one place to another in a given amount of time.

20 20 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.3 Data carrying Capacity  Data Throughput and Goodput

21 思科网络技术学院理事会. http://www.catc.edu.cn 21 8.3 Physical Media – Connecting Communication

22 22 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.1 Types of Physical Media  Several media characteristics defined by Physical layer standards.

23 23 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.1 Types of Physical Media  Several media characteristics defined by Physical layer standards.

24 24 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.2 Copper Media  The types of copper cabling include: - Coaxial cable - Twisted-pair cable · Unshielded Twisted-pair · Shielded Twisted-pair

25 25 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.2 Copper Media  External Signal Interference

26 26 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.3 Unshielded Twisted Pair (UTP) Cable  The basic characteristics of UTP cable

27 27 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.3 Unshielded Twisted Pair (UTP) Cable  UTP Cable Types - Ethernet Straight-through - Ethernet Crossover - Rollover

28 28 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.4 Other Copper Cable  Coaxial cable

29 29 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.4 Other Copper Cable  Coaxial cable

30 30 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.4 Other Copper Cable  Shielded Twisted-Pair (STP) Cable

31 31 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.5 Copper Media Safety  Types of safety issues when working with copper cabling

32 32 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.6 Fiber Media  Fiber Media Cable Construction

33 33 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.6 Fiber Media  Fiber Media Cable Construction

34 34 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.6 Fiber Media  Fiber provides full duplex communications with a cable dedicated to each direction.

35 35 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.6 Fiber Media  Fiber optic cables can be broadly classified into two types: single-mode and multimode. i

36 36 思科网络技术学院理事会. http://www.catc.edu.cn 8.2.7 Wireless Media  Wireless media carry electromagnetic signals at radio and microwave frequencies that represent the binary digits of data communications.

37 37 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.7 Wireless Media  Types of Wireless Networks - Standard IEEE 802.11 - Standard IEEE 802.15 - Standard IEEE 802.16 - Global System for Mobile Communications (GSM)

38 38 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.7 Wireless Media  The Wireless LAN In general, a wireless LAN requires the following network devices: - Wireless Access Point (AP) - Wireless NIC adapters

39 39 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.7 Wireless Media  WLAN Ethernet-based standards include:  IEEE 802.11a - Operates in the 5 GHz frequency band and offers speeds of up to 54 Mbps.  IEEE 802.11b - Operates in the 2.4 GHz frequency band and offers speeds of up to 11 Mbps.  IEEE 802.11g - Operates in the 2.4 GHz frequency band and offers speeds of up to 54 Mbps.  IEEE 802.11n - The proposed standard defines frequency of 2.4 GHz or 5 GHz. The typical expected data rates are 100 Mbps to 210 Mbps with a distance range of up to 70 meters.

40 40 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.8 Media Connectors  Common Copper Media Connectors

41 41 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.8 Media Connectors  Correct Connector Termination

42 42 思科网络技术学院理事会. http://www.catc.edu.cn 8.3.8 Media Connectors  Common Optical Fiber Connectors

43 思科网络技术学院理事会. http://www.catc.edu.cn 43 8.4 Labs – Media Connectors

44 44 思科网络技术学院理事会. http://www.catc.edu.cn Category 5 UTP Cable Tests  Lab 8.4.1: Media Connectors Lab ActivityMedia Connectors Lab Activity

45 45 思科网络技术学院理事会. http://www.catc.edu.cn Summary

46 46 思科网络技术学院理事会. http://www.catc.edu.cn

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