Week 2

Question 1

What is the OSI Model?

Answer 1

The open systems interconnection reference model is a seven layer model developed to categorise the layers of communication

Question 2

What are the seven layers of the OSI model?

Answer 2

7. Application layer
8. Presentation layer
9. Session layer
10. Transport layer
11. Network layer
12. Data link layer
13. Physical layer

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Question 3

What is the physical layer responsible for?

Answer 3

The physical layer is responsible for sending bits via a wired or wireless transmission

Question 4

What is the data link layer responsible for?

Answer 4

The data link layer puts control information in a data link layer header and at then end of the packet in a trailer (the entire message is called a frame)

Question 5

What is the network layer responsible for?

Answer 5

The network layer is responsible for moving messages from one node to another until they reach the destination host – i.e. routing the messages

Question 6

What is the transport layer responsible for?

Answer 6

the transport layer is responsible for transporting application layer payloads from one application to another

Question 7

What is the session layer responsible for?

Answer 7

the session layer describes how data between applications is synched and recovered if messages don’t arrive intact at the receiving application

Question 8

What is the presentation layer responsible for?

Answer 8

The presentation layer is responsible for reformatting, compressing and/or encrypting data in a way that the receiving application can read

Question 9

What is the application layer responsible for?

Answer 9

the application layer describes the interface between two applications, on separate computers. The application layer protocols are used by programs that provide a service to a user and programs that provide services to the system

Question 10

What is a payload?

Answer 10

A payload is the data that is passed between applications or utility programs and the OS

Question 11

What are the two main transport layer protocols?

Answer 11

-TCP (Transmission Control Protocol)

-UDP (User Datagram Protocol)

Question 12

What is involved in the encapsulation process in the transport layer?

Answer 12

Encapsulation is the process of adding a header to the data inherited from the layer above.

Question 13

What is frequency?

Answer 13

Frequency is the number of times in a second that an electrical signal can change states. Frequency is typically measured in MHz or GHz

Question 14

What is bandwidth?

Answer 14

Bandwidth is the amount of data that could be theoretically transmitted during a given period of time

Question 15

What is throughput?

Answer 15

Throughput is the measure of how much data is actually transmitted during given time period

Question 16

What is noise in the context of transmission?

Answer 16

Noise is any undesirable influence degrading or distorting signal

Question 17

What are two common sources of noise?

Answer 17

• EMI (electromagnetic interference)
• Cross-talk (occurs when the signal on one wire infringes on
  adjacent wire signal)

Question 18

What is attenuation?

Answer 18

Attenuation is the loss of a signal’s strength as it travels away from its source

Question 19

What is latency?

Answer 19

Latency is the delay between the transmission of a signal and the receiving of the same signal.

Question 20

What is RTT?

Answer 20

RTT (round trip time) is the time for packet to go from sender to receiver, then back from receiver to sender

Question 21

What are the three types of duplex?

Answer 21

• Full-duplex - Signals travel in both directions simultaneously
• Half-duplex - Signals travel in both directions but only one
  direction at a time
• Simplex - Signals travel in one direction only

Question 22

What is multiplexing?

Answer 22

Multiplexing is a form of transmission that allows multiple signals to travel simultaneously over one medium

Question 23

What are the three types of multiplexing that are used on copper lines?

Answer 23

• TDM (Time division multiplexing) divides a channel into multiple time intervals.
• STDM (Statistical time division multiplexing) assigns slots to nodes according to priority and need
• FDM (Frequency Division Multiplexing) assigns different frequency bands for each communications subchannel

Question 24

What are the three types of multiplexing on fibre-optic cable?

Answer 24

• WDM (Wavelength Division Multiplexing) carries multiple light signals simultaneously by dividing a light beam into different wavelengths or colours.
• DWDM (Dense Wavelength Division Multiplexing) increases the number of channels provided by normal WDM
• CWDM (Coarse Wavelength Division Multiplexing) lowers cost by spacing frequency bands wider apart to allow for cheaper transceiver equipment.

Question 25

What are twisted pair cables?

Answer 25

Twisted-pair cables are cables that consist of four colour-coded insulated copper wire pairs.

Question 26

What are the two types of twisted-pair cable?

Answer 26

• Shielded twisted pair (STP) Wires are individually insulated and may be surrounded by a metallic substance shielding (foil) and have high noise resistance but are more expensive
• Unshielded twisted pair (UTP) Wires are not surrounded by a metallic substance. Cheaper than STP but worse noise reisistance

Question 27

What are the two methods of inserting wires into R-45 plugs?

Answer 27

• TIA/EIA 568A
• TIA/EIA 568B
  There is no functional difference between the two standards, just ensure that the same standard is used on every RJ-45 plug and jack

Question 28

What is a fibre-optic cable?

Answer 28

A fibre-optic cable is a cable that contains a one or more glass or plastic fibres at its centre (core). Data is transmitted via a pulsing light sent from a laser or an LED

Question 29

What benefits does fibre-optic cabling offer over copper cabling?

Answer 29

• Extremely high throughput
• Very high noise resistance
• Excellent security
• Able to carry signals for longer distances

Question 30

What are the drawbacks of fibre-optic cabling?

Answer 30

• More expensive than twisted pair cable
• Requires special equipment to splice

Question 31

What is SMF fibre-optic cabling?

Answer 31

Single mode fibre (SMF) consists of a narrow core (8-10 microns in diameter). Laser-generated light travels over one path, reflecting very little. The light does not disperse as the signal travels.
- Can carry signals for many miles before repeating is required
- SFM is rarely used for shorter connections due to high cost
- The internet backbone depends on SMF

Question 32

What is MMF fibre-optic cabling?

Answer 32

Multimode fibre (MMF) contains a core with a larger diameter than a single mode fibre (usually 50 or 62.5 microns)
- Laser or LED generated light pulses travel at different angles through MMF
- Signals traveling over MMF experience greater attenuation than single-mode fibre
- Common uses include:
- Cables connecting routers, switches, and servers on the backbone of the network.
- Cables to connect a desktop workstation to the network.

Question 33

What fire suppression systems are usually found in data centres?

Answer 33

• Emergency alert system
• Portable fire extinguishers (use class C for electrical fires)
• Emergency power-off switch

Question 34

What are the 7 troubleshooting steps?

Answer 34

1. Identify problem
2. Establish theory of probable cause
3. Test theory to determine cause
4. Establish plan of action
5. Implement solution or escalate the problem
6. Verify full functionality
7. Document findings, actions, outcomes

Question 35

What do the three LED status indicator lights indicate?

Answer 35

1. A steady light indicates connectivity
2. A blinking light indicates activity
3. A red or amber light might indicate a problem

Question 36

What does a tone and probe kit do?

Answer 36

Tone and probe kits (Which include tone generators and tone locators) are used to determine where wired pairs terminate (cannot be used to determine cable characteristics)

Question 37

What does a multimeter do?

Answer 37

1. Measures voltage to verify a cable is conducting electricity
2. Checks for the presence of noise
3. Tests for short or open circuits in the wire

Question 38

What does a cable continuity tester do?

Answer 38

Tests whether a cable carries a signal to destination

Question 39

What does a cable performance tester do?

Answer 39

1. Measures distance to a connectivity device, termination point, or cable fault
2. Measures attenuation
3. Measures NEXT (near end cross-talk)
4. Measures termination resistance and impedance
5. Issue pass/fail ratings for Cat 3-7 standards
6. Store and print results or save to a computer database
7. Graphically depict attenuation and cross-talk

Question 40

What does an OPM do?

Answer 40

An OPM measures the amount of light power transmitted on a fibre-optic line

Question 41

What is the fastest ethernet standard?

Answer 41

100GBASE-T

Question 42

What is ESD?

Answer 42

ESD is electrostatic discharge which can damage sensitive electronic components.

Question 43

What are the two types of damage static electricity can cause?

Answer 43

• Catastrophic failure - destroyed beyond use
• Upset failure - shorten the life of a component

Question 44

What is the maximum segment length for twisted pair cables?

Answer 44

100 metres

Question 45

What are the three types of cross talk?

Answer 45

• Alien cross-talk occurs between two cables
• Near end cross-talk (NEXT) occurs near the source
• Far end cross-talk (FEXT) occurs at the far end

Question 46

What are amplifiers used for?

Answer 46

Amplifiers are used to boost analogue signals, but they also boost any noise that effected the analogue signal as well.