the physical network unit objective: identify network cables and connectors, and use networking...
TRANSCRIPT
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The physical network
Unit objective: Identify network cables and
connectors, and use networking tools
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Topic A
Topic A: Network cable and connector types
Topic B: Cable and connector properties
Topic C: Networking tools
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Fiber optic cable Carries light-based data Strands of glass or plastic Components
contnued
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Fiber optic connectors
ST SC LC Other connectors
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Twisted-pair cable
Copper wire Unshielded twisted-pair Shielded twisted-pair Connectors
– RJ-45– RJ-11
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Coaxial cable
Found in older networks
continued
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Coaxial cable, continued
RG-8 and RG-58 used in Ethernet
RG = Radio Guide Stranded or solid Impedance in ohms,
Ω Thicknet cables are
RG-8 Thin Ethernet cables
are RG-58
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Topic B
Topic A: Network cable and connector types
Topic B: Cable and connector properties
Topic C: Networking tools
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Fiber optic cable Two types
– Single-mode– Multimode
Commonly used for long distances and backbones Benefits:
– Thinner and lighter weight – Higher carrying capacity – Use of digital signals – Less signal degradation – Less interference – Non-flammable – More secure
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Common UTP categories
Category Speed and frequency Typical use
CAT 3 10 Mbps; 16 MHz Voice in newer telephone systems.
The minimum category you can use for data networks. Most often found in 10BASE-T networks.
Ethernet, Fast Ethernet, and Token Ring all support CAT 3.
CAT 5 100 Mbps; 100 MHz
155 Mbps ATM
Used for data and voice in Ethernet networks running at 10 or 100 Mbps.
Ethernet, Fast Ethernet, Gigabit Ethernet, Token Ring, and ATM all support CAT 5.
CAT 5e 100 Mbps; 100 MHz
155 Mbps ATM
Used for data and voice in Fast Ethernet and Gigabit Ethernet networks. Has better transmission performance characteristics than CAT 5.
Ethernet, Fast Ethernet, Gigabit Ethernet, Token Ring, and ATM all support CAT 5e.
CAT 6 1 Gbps; 250 MHz
155 Mbps ATM
Used for data in Fast Ethernet and Gigabit Ethernet networks.
Ethernet, Fast Ethernet, Gigabit Ethernet, Token Ring, and ATM all support CAT 6.
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Additional TP categories
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Stranded vs. solid
Solid – Thicker, more protective covering – Less flexible– Best for longer network runs and fixed
wiring
Stranded – Thinner protective covering– More pliable – Useful for shorter-distances and movable
wiring
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Straight-through and cross-over
Straight-through– TP cable; both ends follow either 568A or 568B– Used to connect computers to hub or switch
Cross-over – TP cable; one end is wired using 568A, and the
other using 568B – Used to connect two computers together
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Pin numbering of RJ-45 connector
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T1 crossover cable
Connects two T1 devices together without a network device between them
Cable end 1 Cable end 2
Pin 1 Pin 4
Pin 2 Pin 5
Pin 4 Pin 1
Pin 5 Pin 2
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RG standards
Standard Impedance Core size Uses
RG-6/U 75 1.0 mm Cable and satellite television; cable modems
RG-6/UQ 75 1.0 mm Q stands for quad: 4 layers of shielding, compared to RG-6/U, which has 2.
RG-8/U 50 2.17 mm Thicknet network backbones; amateur radio.
RG-9/U 51 2.17 mm Thicknet network backbones
RG-11/U 75 1.63 mm Cable and satellite television, video surveillance; thicker than RG-6. Used underground or for outdoor antennae drops.
RG-58/U 50 0.9 mm Thin Ethernet; radio; amateur radio.
RG-59/U 75 0.81 mm Baseband video in closed-circuit television; cable television.
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RG standards
Standard Impedance Core size Uses
RG-6/U 75 1.0 mm Cable and satellite television; cable modems
RG-6/UQ 75 1.0 mm Q stands for quad: 4 layers of shielding, compared to RG-6/U, which has 2.
RG-8/U 50 2.17 mm Thicknet network backbones; amateur radio.
RG-9/U 51 2.17 mm Thicknet network backbones
RG-11/U 75 1.63 mm Cable and satellite television, video surveillance; thicker than RG-6. Used underground or for outdoor antennae drops.
RG-58/U 50 0.9 mm Thin Ethernet; radio; amateur radio.
RG-59/U 75 0.81 mm Baseband video in closed-circuit television; cable television.
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Topic C
Topic A: Network cable and connector types
Topic B: Cable and connector properties
Topic C: Networking tools
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Crimper
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Coax crimper
Terminating a coaxial Thinnet cable to a BNC connector
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Twisted-pair cable crimper
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Punchdown tool
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Using a punchdown tool
1. Insert the wire between the two metal blades on the punchdown block. There is one wire per contact in the punchdown block.
2. Place the punchdown tool on top of the wire. (Remember to have the correct side of the tool facing up.)
3. Apply pressure to the wire until you hear a snap. This snap is from the spring mechanism inside the tool.
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Cable testing device
Test physical cables and network functions
Single LAN type device or multiple LAN type device
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Physical cable tests
Locating incorrectly wired cables, open cables, and shorts
Locating missing cables Locating cables that don’t support your
network type Testing hub connections Testing PC connections Testing installed cables Testing patch cables Locating and tracing inactive cables
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Network function tests Verifying that a PC or switch is powered on Specifying whether a device is a network PC or a
switch Displaying the maximum network connection speed
to the device Verifying PC-to-switch speed, and data
transmission and port speed or duplex mismatch Verifying switch-to-switch data transmission Determining if a straight-through or crossover patch
cable is required Finding speed bottlenecks on LANs Monitoring a LAN link between two devices
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Toner probe
Amplifier probe Locate, identify, and trace wires or
cables Works with a tone generator
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Using a tone probe
1. Set the tone generator to tone.
2. Test the tone generator.
3. Connect the tone generator to one end of the cable you want to trace.
4. Use the probe to identify where the cable comes into your patch panel or 110 block. Move to the cable bundle and identify the cable in the bundle that runs to where you’ve connected the tone generator.
5. Disconnect the tone generator and turn it off.
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Loopback plug
Test ports Specific to type of
port Ethernet loopback
– 10 and 100 Mbps– Gigabit
Network loopback plug - can make your own or buy commercial
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Multimeters
Use to measure electricity from power supply or computer component
Available in digital and analog models
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Measuring resistance
1. Turn off the device you’re measuring and disconnect it from its power source
2. If necessary disconnect the device from its circuit
3. Set the multimeter to read resistance
4. Touch the two leads of the multimeter together
5. Touch the black and red probes to either side of the circuit to be measured, and read the resistance from the meter’s display
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Measuring voltage
1. The power supply must be on
2. Set your multimeter to read either DC or AC voltage
3. Touch the black probe to the ground, and touch the red probe to the spot where you want to measure the voltage
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Measuring current
1. Break the circuit
2. Insert the meter in the break
3. Read the current flowing through circuit
Can also use an ammeter or clamp-ion ammeter to measure current flow
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Measuring continuity
1. Set multimeter to display resistance
2. Look for circuits with zero resistance If your multimeter includes a continuity
mode, you can use that. In continuity mode, multimeter sounds
a tone whenever it detects a closed circuit
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Unit summary
Identified network cables and connectors, and used networking tools