RCDD Flash Cards - Chapter 1 Principle of Transmission
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Transcript of RCDD Flash Cards - Chapter 1 Principle of Transmission
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TDMM, 11th ed Chapter 1 - Principles of Transmission
1
Define electrical conductor.reference page 1-2
Any material that can carry current from one point to another
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TDMM, 11th ed Chapter 1 - Principles of Transmission
2
Name 4 common electrical conductors used to make wire
and cable.reference page 1-2
1) Copper2) Copper-covered steel
3) High-strength copper alloy4) Aluminum
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TDMM, 11th ed Chapter 1 - Principles of Transmission
3
True or False?Silver and gold are good
electrical conductors.reference page 1-2
True
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TDMM, 11th ed Chapter 1 - Principles of Transmission
4
Describe a copper-covered steel conductor.reference page 1-2
It combines the conductivity of copper with the strength of steel and is
typically used as a conductor for aerial, self-supporting drop wire.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
5
Describe a high-strength copper alloy conductor.
reference page 1-2
A mixture of copper and other metals that improves certain copper alloy properties and characteristics of
copper
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TDMM, 11th ed Chapter 1 - Principles of Transmission
6
Name the conductor that has the poorest corrosion resistance.
reference page 1-3
High-strength alloy
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TDMM, 11th ed Chapter 1 - Principles of Transmission
7
Name the conductor that has the poorest oxidation resistance.
reference page 1-3
Aluminum
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TDMM, 11th ed Chapter 1 - Principles of Transmission
8
Name the conductor that has the best tensile strength.
reference page 1-3
High-strength alloy
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TDMM, 11th ed Chapter 1 - Principles of Transmission
9
Describe the process of creating stranded conductors.
reference page 1-3
Twisting or stranding together a number of small-gauge solid
conductors
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TDMM, 11th ed Chapter 1 - Principles of Transmission
10
Name 3 advantages of solid conductors.
reference page 1-3
1) Less costly2) Less complex termination systems3) Better transmission performance at
high frequencies
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TDMM, 11th ed Chapter 1 - Principles of Transmission
11
Name 3 advantages of stranded conductors.
reference page 1-3
1) More flexible2) Longer flex life
3) Less susceptible to damage during crimp termination process
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TDMM, 11th ed Chapter 1 - Principles of Transmission
12
Define a composite conductor.reference page 1-4
A conductor constructed from non-traditional materials (e.g.,
metallic resins or graphite.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
13
Name 5 advantages of composite conductors.
reference page 1-4
1) Highly flexible2) Lightweight
3) Inexpensive and easy to produce4) Easily embedded into other materials
5) Low coefficient of expansion
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TDMM, 11th ed Chapter 1 - Principles of Transmission
14
Name 4 disadvantages of composite conductors.
reference page 1-4
Poor analog transmission characteristics including high attenuation, especially above 4000 Hz; extremely poor
digital transmission characteristics; easily damaged unless encased in a rigid material; inconsistent quality
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TDMM, 11th ed Chapter 1 - Principles of Transmission
15
True or False?Cables with composite
conductors are recommended for modern telecommunications
networks.reference page 1-4
False
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TDMM, 11th ed Chapter 1 - Principles of Transmission
16
What do the sizes in American wire gauge (AWG) roughly
represent?reference page 1-5
The number of steps that were involved in the process of wire drawing
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TDMM, 11th ed Chapter 1 - Principles of Transmission
17
What do the smaller sizes in American wire gauge (AWG)
represent?reference page 1-5
Larger wires
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TDMM, 11th ed Chapter 1 - Principles of Transmission
18
What do the larger sizes in American wire gauge (AWG)
represent?reference page 1-5
Smaller wires
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TDMM, 11th ed Chapter 1 - Principles of Transmission
19
What is 1 mil equal to in millimeters (mm) and inches (in)?
reference page 1-5
0.0254mm (0.001in)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
20
What is the smallest size in American wire gauge (AWG)?
reference page 1-5
36 AWG = 5 mil
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TDMM, 11th ed Chapter 1 - Principles of Transmission
21
What is the largest size in American wire gauge (AWG)?
reference page 1-5
4/0 = 460 mil
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TDMM, 11th ed Chapter 1 - Principles of Transmission
22
Which of the following has a slightly larger outside diameter,
stranded or solid conductors, and why?
reference page 1-6
Stranded, due to the additional cross-sectional area between the strands.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
23
What is the purpose of insulation?reference page 1-7
To isolate the flow of current by preventing direct contact between
conductors and a conductor and its environment.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
24
The electrical performance of balanced twisted-pair cables is
inversely proportional to?reference page 1-7
The insulations dielectric constant and dissipation factor
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TDMM, 11th ed Chapter 1 - Principles of Transmission
25
What are the characteristics of cables with lower dielectric
constant and dissipation factor?reference page 1-7
They have a better transmission performance, including lower
attenuation characteristics and lower capacitance.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
26
What happens with electromagnetic (EM) coupling
though dielectrics?reference page 1-7
It is reduced.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
27
Name 2 materials that provide improved smoke and flame
characteristics and improved transmission performance.
reference page 1-7
1) Flourinated ethylene propylene (FEP)
2) Ethylene chlorotriflouroethylene (ECTFE)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
28
Define dielectric constant.reference page 1-9
The ratio of the capacitance of an insulated conductor to the capacitance of the same conductor uninsulated in
the air.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
29
Define dielectric strength.reference page 1-9
Measures the maximum voltage that an insulation can withstand
without breakdown.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
30
Define dissipation factor.reference page 1-9
The relative power loss in the insulation due to molecular excitement
and subsequent kinetic and thermal energy losses.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
31
Define insulation resistance.reference page 1-9
The insulation’s ability to resist the flow of current through it.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
32
What is the main reason for twisting conductor pairs?
reference page 1-10
To minimize crosstalk and noise by decreasing capacitance unbalance and
mutual inductance coupling between pairs.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
33
What is pair-to-pair capacitance unbalance?
reference page 1-10
A measure of the electrical field coupling between two pairs if a differential voltage is applied on one pair and a differential noise
voltage is measured on another pair in close proximity.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
34
What is mutual conductance?reference page 1-10
A measure of the magnetic field coupling between two pairs if a differential current is applied on one pair and a differential noise
current is measured on another pair in close proximity.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
35
What is done to minimize crosstalk within a multi-pair
cable?reference page 1-10
Each pair is given a different twist length within a standard range.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
36
What sort of twist is used for voice and low-frequency data
cables?reference page 1-10
A counterclockwise twist length between 51mm and 152mm
(2in and 6in)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
37
When is tight twisting used?reference page 1-10
Within and between computers and other data processing
equipment.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
38
Which cable categories use tight twisting?reference page 1-10
Categories 5E and 6
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TDMM, 11th ed Chapter 1 - Principles of Transmission
39
Define electromagnetic interference (EMI).
reference page 1-11
Stray electrical energy radiated from electronic equipment and
electronic systems.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
40
What problem is caused by temperatures over 20° C (68° F) in balanced twisted-pair cables?
reference page 1-11
Increased attenuation
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TDMM, 11th ed Chapter 1 - Principles of Transmission
41
Name 3 places where high temperatures are encountered.
reference page 1-11
1) Exterior building walls
2) Ceiling spaces, including plenums
3) Mechanical rooms
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TDMM, 11th ed Chapter 1 - Principles of Transmission
42
Name 3 reasons why attenuation increases with temperature.
reference page 1-11
1) Conductor resistance2) Insulation dielectric constant
3) Dissipation factor
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TDMM, 11th ed Chapter 1 - Principles of Transmission
43
What temperature reference is cited in cabling standards for all
twisted-pair cables?reference page 1-11
20° C +- 3° C
(68° F +- 37° F)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
44
Which insulation type has the best attenuation values?
reference page 1-12, 13, 14
Flourinated ethylene propylene (FEP)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
45
What is a shield?reference page 1-15
A metallic covering or envelope enclosing an insulated conductor,
individual group of conductors within a core, and cable core
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TDMM, 11th ed Chapter 1 - Principles of Transmission
46
What are shields made up of?reference page 1-15
Foil or braided metal strands
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TDMM, 11th ed Chapter 1 - Principles of Transmission
47
Name 4 effects of shields.reference page 1-15
They:1) Reduce the radiated signal from the cable.
2) Reduce the effects of electrical hazards when properly grounded and bonded.
3) Minimize the effect of external electromagnetic interference (EMI) on the conductors within the shielded cable.
4) Increase the capacitance per unit length of cable.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
48
Name 3 factors of shield effectiveness.
reference page 1-15
1) Type and thickness of the shield material2) Number and size of openings in the
shield3) Effectiveness of the bonding connection
to ground
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TDMM, 11th ed Chapter 1 - Principles of Transmission
49
How is shield effectiveness determined?
reference page 1-15
By measuring the surface transfer impedance.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
50
Define surface transfer impedance.
reference page 1-15
The ratio of the conductor-to-shield voltage per unit length to
the shield current
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TDMM, 11th ed Chapter 1 - Principles of Transmission
51
Describe solid wall metal tube.reference page 1-16
The best possible shield, displaying superior shielding properties at all frequencies.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
52
Describe conductive nonmetallic materials.reference page 1-16
Semi-conductive tapes made with high carbon content, sometimes used at
power and some low audio frequencies.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
53
Name 4 primary criteria for selecting cable shields.
reference page 1-16
Nature of the transmitted signal, magnitude of the electromagnetic fields through which the cable will run, electromagnetic compatibility
(EMC) regulations, and physical environment and specific mechanical requirements.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
54
Which types of cable shields provide the best coverage?
reference page 1-17
Foil and solid-wall conduit
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TDMM, 11th ed Chapter 1 - Principles of Transmission
55
Which types of cable shields provide the best shield effectiveness for audio
frequency?reference page 1-17
Foil and solid-wall conduit
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TDMM, 11th ed Chapter 1 - Principles of Transmission
56
Which types of cable shields provide the best shield
effectiveness for radio frequency (RF)?
reference page 1-17
Multiple-layer braid, foil, and solid-wall conduit.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
57
Which types of cable shields provide the best fatigue life?
reference page 1-17
Single-layer braid and multiple-layer braid.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
58
Which types of cable shields provide the best tensile strength?
reference page 1-17
Single-layer braid, multiple-layer braid, and solid-wall conduit
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TDMM, 11th ed Chapter 1 - Principles of Transmission
59
Define permeability.reference page 1-17
The property of a magnetic substance that determines the degree in which it modifies the
magnetic field.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
60
What is the purpose of drain wires?
reference page 1-18
To facilitate shield grounding and ensure shield continuity for
metallic foil shields.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
61
With what types of shields are drain wires used?
reference page 1-18
Foil, nonmetallic, and hybrid shields, and occasionally with braided shields to make
shield ground termination easier.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
62
Describe the form of an analog signal.
reference page 1-19
A wave that uses continuous variations in time to transmit
information
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TDMM, 11th ed Chapter 1 - Principles of Transmission
63
Name the fundamental example of an analog signal.
reference page 1-19
Sinusoid
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TDMM, 11th ed Chapter 1 - Principles of Transmission
64
What is a sinusoid?reference page 1-20
An oscillating, periodic signal that is completely described by three
parameters: amplitude, frequency, and phase
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TDMM, 11th ed Chapter 1 - Principles of Transmission
65
What defines the frequency of a sinusoid?reference page 1-20
The number of cycle times per second
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TDMM, 11th ed Chapter 1 - Principles of Transmission
66
Define the relationship between frequency and cycle times in a
formula format.reference page 1-20
f = 1/T
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TDMM, 11th ed Chapter 1 - Principles of Transmission
67
What is the standard unit of frequency?
reference page 1-20
Hertz (Hz)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
68
What is the range of frequencies heard by a human ear?
reference page 1-20
20 – 20,000 Hz
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69
Define phase.reference page 1-21
A description of the reference time, t=0
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TDMM, 11th ed Chapter 1 - Principles of Transmission
70
Present sinusoid in mathematical terms.
reference page 1-22
v(t) = A sin(2πft + ф); where A=Amplitude, f=Frequency,
ф=Phase, and t=Time
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TDMM, 11th ed Chapter 1 - Principles of Transmission
71
What did Joseph Fourier discover about analog signals.
reference page 1-22
That any analog signal can be mathematically described as a sum of
sinusoidal signals that differ in amplitude, frequency, and phase.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
72
What is necessary for the received signal to be an exact
duplicate of the transmitted signal?
reference page 1-22
The transmission system must not change the frequency of any signal
components.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
73
What is the range of very low frequency (VLF)?
reference page 1-23
3 – 30 kilohertz (kHz)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
74
What is the range of low frequency (LF)?
reference page 1-23
30 – 300 kHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
75
What is the range of medium frequency (MF)?
reference page 1-23
300 – 3000 kHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
76
What is the range of high frequency (HF)?
reference page 1-23
3 – 30 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
77
What is the range of very high frequency (VHF)?
reference page 1-23
30 – 300 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
78
What is the range of ultra high frequency (UHF)?
reference page 1-23
300 – 3000 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
79
What is the range of community antenna television (CATV)?
reference page 1-23
54 – 1002 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
80
What is the range of super high frequency (SHF)?
reference page 1-23
3 – 30 GHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
81
Define decibel (dB).reference page 1-23
A measure that compares the power of a signal (P1) relative to some reference
power (P2):
dB = 10 log (P1/P2)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
82
What happens when a signal encounters a discontinuity in the
medium carrying the signal?reference page 1-25
Some of the signal power is reflected back to the transmitter.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
83
What must happen to experience an echo?
reference page 1-25
Enough delay to distinguish the echo from the original source of
the sound
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TDMM, 11th ed Chapter 1 - Principles of Transmission
84
What is the sum of two sinusoids of the same frequency and zero
phase difference?reference page 1-25
A single sinusoid with amplitude of 2A
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TDMM, 11th ed Chapter 1 - Principles of Transmission
85
Define two sinusoids with zero sum.
reference page 1-25
180 degrees out of phase
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TDMM, 11th ed Chapter 1 - Principles of Transmission
86
Name 3 basic components of a telecommunications transmission
system.reference page 1-26
1) Source of energy
2) Medium to carry the energy
3) Receiving device
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TDMM, 11th ed Chapter 1 - Principles of Transmission
87
What is the purpose of analog telephones?
reference page 1-26
To convert sound waves into electrical analog signals that can be transmitted over much longer distances than the
sound waves can travel.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
88
What is a receiver?reference page 1-26
A device that converts electrical energy back into sound energy.
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89
When does the maximum transmission of electrical power
occur?reference page 1-27
When a transmitting device and a receiving device have the same
load resistance or the same impedance.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
90
What is the difference between resistance and impedance?
reference page 1-27
Impedance has both a magnitude and phase component.
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91
What impedance is preferred for private line circuits and trunks?
reference page 1-27
600 ohms
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TDMM, 11th ed Chapter 1 - Principles of Transmission
92
What impedance is preferred for central office switching system
line circuits?reference page 1-27
900 ohms
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TDMM, 11th ed Chapter 1 - Principles of Transmission
93
What improves transmission efficiency and minimizes echo?
reference page 1-27
Matching the impedances of the transmission line and the receiver
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TDMM, 11th ed Chapter 1 - Principles of Transmission
94
When principal elements contribute to loss and phase
distortion at voice frequencies?reference page 1-28
Conductor resistance and mutual capacitance of the cable pair.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
95
How does increasing the frequency affect the speed of
transmission through cable pairs?reference page 1-28
It increases the speed of transmission.
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96
Name 2 characteristics of loading coils?
reference page 1-28
They compensate for the capacitance of a cable pair and reduce the capacitive current loading in the range of audio
frequencies.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
97
What types of signals do loading coils block and why?
reference page 1-28
Analog high fidelity and digital signals; because they cut
frequencies above voice grade.
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98
How is adversely affected by loading coils?
reference page 1-28
Data transmission.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
99
How does the loading coil spacing affect the upper cutoff
frequency?reference page 1-28
The shorter the spacing is between the loading points, the higher the
cutoff frequency.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
100
What types of networks do Internet protocol (IP) telephony
systems use?reference page 1-29
Packet-switched data networks for voice communications
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101
What must data networks have to support Internet protocol
telephony?reference page 1-29
Quality of Service (QoS) capabilities
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TDMM, 11th ed Chapter 1 - Principles of Transmission
102
What 3 interfaces are available for use with IP telephony?
reference page 1-29
1) An IP telephone2) A PC with IP telephony software and a microphone/speaker or universal serial bus (USB)
handset3) Multi-functional devices with a wireless receiver
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TDMM, 11th ed Chapter 1 - Principles of Transmission
103
What are the 3 common implementation options for IP
telephony architecture?reference page 1-30
1) Separate lines-one for the IP telephone and one for the PC
2) One line for everything using a dual-port IP telephone or a soft phone
3) Wireless connection using access points (AP) to connect the IP phone
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104
What is used to provide uninterrupted power to the
telephone set?reference page 1-31
Power over Ethernet (PoE)
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105
What standard defines the power sources used with Ethernet-
based products?reference page 1-31
Institute of Electrical and Electronics Engineers (IEEE) standard 802.3af,
Data Terminal Equipment (DTE) Power via Media Dependent Interface (MDI)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
106
What is the primary medium of direct current (DC) power delivery
for power source equipment?reference page 1-31
The two unused pairs in 10Base-T or 100Base-TX (pair 4-5 and pair 7-8) or the signal pairs (pair 1-2 and pair (3-6)
directly through the switch ports.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
107
What are the 3 practical power source options for voice over IP?
reference page 1-29
1) VoIP switches with integrated power supplies2) Midspan units
3) Local power sources, consisting of a simple power source plugged into a regular electrical outlet
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TDMM, 11th ed Chapter 1 - Principles of Transmission
108
What is the advantage of midspan power source units?
reference page 1-31
They offer power to IP telephone units using legacy switches.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
109
Define digital signalreference page 1-32
A signal that changes from one state to another in discrete steps
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TDMM, 11th ed Chapter 1 - Principles of Transmission
110
What 3 steps make up the process of converting an analog
signal to a digital signal?reference page 1-33
1) Filtering
2) Sampling
3) Quantizing/companding
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TDMM, 11th ed Chapter 1 - Principles of Transmission
111
What sampling rate is required to faithfully reproduce the analog signal when it is converted from analog to
digital data and then back to analog?
reference page 1-33
At least twice the highest frequency component of the analog signal
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112
Define quantizing.reference page 1-33
Assigning each sampled value a discrete level that approximates
the analog signal at the sampling instant.
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113
Define compandingreference page 1-33
Assigning a greater number of levels to a sampled value when the speech signal is
weak (close to zero) than when the speech signal is strong (close to one)
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114
Define a pulse code modulation (PCM) signal.
reference page 1-34
A sampled value assigned one of 256 levels and can be represented by an
8-bit binary number.
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115
What is the highest data rate of digital signal processing
reference page 1-34
64kb per second
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TDMM, 11th ed Chapter 1 - Principles of Transmission
116
What data rates are used adaptive differential pulse code modulation
(ADPCM)?
reference page 1-34
40, 32, 24, or 16kb per second
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117
Define time division multiplexing (TDM).
reference page 1-34
Combining binary data from several different sources into a
single composite bit stream.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
118
How is time division multiplexing (TDM) accomplished?
reference page 1-34
By predetermined (deterministic) interleaving of samples from different voice channels
along with one or more bits for control purposes to make up a frame.
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119
What is the most popular form of time division multiplexing (TDM)
reference page 1-34
Statistical time division multiplexing (TDM)
Stat mux
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120
Name 2 examples of time division multiplexing (TDM).
reference page 1-35
1) Digital signal level one (DS1) format
2) European Conference of Postal and Telecommunications Administration
(CEPT) PCM-30 format
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121
Describe digital signal level one (DS1) format
reference page 1-35
The digital data from 24 speech channels is combined for transmission over a
single transmission channel
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TDMM, 11th ed Chapter 1 - Principles of Transmission
122
What is the formulaic expression of the data rate for digital signal
one (DS1) format?reference page 1-35
(8b/s channel x 24 channels + 1 framing bit) x 8000 frames/sec
= 1.544kb/s
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TDMM, 11th ed Chapter 1 - Principles of Transmission
123
Describe European Conference of Postal and Telecommunications Administrations (CEPT) PCM-30
format.reference page 1-35
The digital data from 30 speech channels is combined for transmission over a single
transmission channel.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
124
What is the formulaic expression of the data rate for European Conference of Postal and
Telecommunications Administration (CEPT) PCM-30 format?
reference page 1-34
(8b/s/channel x 32 channels) x 8000 frames/sec = 2.048kb/s or 2Mb/s
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125
What is demultiplexing?reference page 1-36
The process of reconstituting the individual channels from the
composite signal.
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126
What is multiplexing and demultiplexing equipment commonly
called?reference page 1-36
Channel bank
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127
True or False?It is possible to extract a single channel from the digital stream without demultiplexing back to
the first order stage.reference page 1-36
False
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128
Define 1 superframe in T format.reference page 1-36
12 T1 frames
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129
Define 1 extended superframe in T format.
reference page 1-36
24 T1 frames
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130
Define 1 multiframe in E format.reference page 1-36
16 E1 frames
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131
Define bitreference page 1-37
The basic unit of digital data
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132
How is digital data encoded?reference page 1-37
Using digital signals that encode the original sequence of data
bits
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133
What is the final step in the encoding process?
reference page 1-37
The modification of the shape and pattern of pulses to achieve more efficient transmission
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134
What is the purpose of line-coding technique?reference page 1-37
Eliminate the direct current (DC) component, which can have an
adverse effect on signal detection and improve timing recovery.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
135
What are the 2 common methods of encoding?
reference page 1-37
1) Inverting alternate pulses for ones and using a zero level for zeros
2) Manchester (or differential Manchester) coding where each bit within a unit data bit interval is
represented by a positive pulse over one half the interval and a negative pulse over the remaining
half interval
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TDMM, 11th ed Chapter 1 - Principles of Transmission
136
Define baud.reference page 1-38
The rate at which a signal can change state.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
137
How can higher data speeds be achieved?
reference page 1-38
Using encoded symbols at lower line rates.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
138
What transmission method is used for high bit rate digital subscriber line
(HDSL)?reference page 1-39
2 binary bits encoded into 1 quaternary symbol (2B1Q)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
139
What transmission method is used for integrated services digital network
(ISDN primary rate)?reference page 1-39
Bipolar
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TDMM, 11th ed Chapter 1 - Principles of Transmission
140
What transmission method is used for 10Base-T?
reference page 1-39
Manchester
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TDMM, 11th ed Chapter 1 - Principles of Transmission
141
What transmission method is used for twisted-pair physical media
dependent (TP-PMD)?reference page 1-39
3-level (MLT-3)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
142
Define a quadrature amplitude modulation (QAM) signal.
reference page 1-42
A signal composed of two sinusoidal carriers, each having the same
frequency but differing in phase by one quarter of a cycle.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
143
What are the I and Q signals mathematically equal to,
respectively?reference page 1-42
Sine and cosine waves
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TDMM, 11th ed Chapter 1 - Principles of Transmission
144
What happens with I and Q carriers at the transmitter?
reference page 1-42
They are amplitude modulated by bits selected from the data.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
145
What happens to the signal consisting of the two amplitude
modulated carriers?reference page 1-42
It is both amplitude and phase modulated by the data bits.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
146
What type of modulation does a discrete multitone (DMT) use?
reference page 1-42
Multicarrier modulation
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TDMM, 11th ed Chapter 1 - Principles of Transmission
147
How can data rates be adjusted with discrete multitone (DMT)?
reference page 1-42
By increasing the number of subbands and by varying the number of bits carried in each
subband.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
148
Define 8B/1Q4 PAM5 encodingreference page 1-42
Each group of eight bits (8B) is converted to one transmission of four quinary symbols (1Q4) across four balanced twisted pairs. Each symbol represents two binary bits
or zero (PAM5)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
149
Describe a major benefit of digital data transfer over analog data
transfer.reference page 1-43
Digital data can be transmitted (noise free) over essentially unlimited distances if the digital
data is received and regenerated at intervals before it is degraded by added noise.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
150
Name 3 types of transmission circuits
reference page 1-44
1) Simplex
2) Half-duplex
3) Full-duplex
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TDMM, 11th ed Chapter 1 - Principles of Transmission
151
Define a simplex transmission circuit.reference page 1-44
A circuit that transmits signals in one direction only.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
152
Define a half-duplex transmission circuit
reference page 1-44
A circuit that transmits signals in either direction but only in one
direction at a time.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
153
What equipment does a half-duplex transmission circuit typically
comprise?reference page 1-44
Push-to-talk switch arrangement on voice circuits and signaling
protocol
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TDMM, 11th ed Chapter 1 - Principles of Transmission
154
Define a full-duplex transmission circuit.
reference page 1-44
A circuit that transmits signals in both directions at the same time.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
155
Describe asynchronous transmission.
reference page 1-45
It occurs without a precise time relationship in the signal
characters or the bits that represent them.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
156
Describe synchronous transmission.reference page 1-45
It is performed by synchronizing the data bits in phase or in unison with equally
spaced clock signals or pulses.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
157
Which transmission type is less efficient, asynchronous or synchronous, and why?
reference page 1-45
Asynchronous transmission is less efficient because it requires the addition of some combination of
start and stop bits to the data stream.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
158
What are the 5 levels of multiplexing used in North America?
reference page 1-46
1) Digital signal (DS) 02) DS-1
3) DS-1C4) DS-25) DS-3
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TDMM, 11th ed Chapter 1 - Principles of Transmission
159
What are a typical transmission rate and the number of channels in DS-1?
reference page 1-46
1.544 Mb/s and 24 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
160
What are the typical transmission rate and the number of channels
in DS-1C?reference page 1-48
3.152 Mb/s and 48 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
161
What are a typical transmission rate and the number of channels in DS-2?
reference page 1-48
6.312 Mb/s and 96 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
162
Which are a typical transmission rate and the number of channels
in DS-3?reference page 1-48
44.736Mb/s and 672 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
163
Which are a typical transmission rate and the number of channels
in DS-4?reference page 1-48
274.176Mb/s and 4032 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
164
What are the 4 levels of multiplexing in Europe?reference page 1-49
E1, E2, E3, and E4
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TDMM, 11th ed Chapter 1 - Principles of Transmission
165
What are the typical transmission rate and the number of channels
in E1?reference page 1-50
2.048 Mb/s and 30 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
166
What are a typical transmission rate and the number of channels in E2?
reference page 1-50
8.192 Mb/s and 120 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
167
Which are a typical transmission rate and the number of channels
in E3?reference page 1-50
34.816Mb/s and 480 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
168
Which are a typical transmission rate and the
number of channels in E4?reference page 1-48
139.264Mb/s and 1920 channels
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TDMM, 11th ed Chapter 1 - Principles of Transmission
169
What are the 3 characteristics of basic rate integrated services digital
network (ISDN)?reference page 1-51
1) Intended for residential and small business users2) Uses a digital signal comprising two 64kb/s B channels for voice and data and one 16kb/s D channel
for signaling and packet data3) Has a total information capacity of 144 kb/s.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
170
What are the 3 characteristics of primary rate integrated services
digital network (ISDN) North America?reference page 1-51
1) Intended for large business users2) Has a total information capacity of 1.536 Mb/s
3) Uses a digital signal comprising 23 B channels and one D channel, each operating at 64 kb/s
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TDMM, 11th ed Chapter 1 - Principles of Transmission
171
What are the 3 characteristics of primary rate integrated services digital network (ISDN) Europe?
reference page 1-51
1) Intended for large business users2) Has a total information capacity of 1.92 Mb/s
3) Uses a digital signal comprising 30 B channels and one D channel, each operating at 64 kb/s
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TDMM, 11th ed Chapter 1 - Principles of Transmission
172
Define high bit-rate digital subscriber line (HDSL).
reference page 1-52
A technology that transmits 1.544 Mb/s or 2.048 Mb/s in bandwidths of less
than 500 kHz both upstream and downstream, depending upon the
specific technique.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
173
Define symmetrical digital subscriber line (SDSL).
reference page 1-52
A single-pair version of high bit-rate digital subscriber line (HDSL),
transmitting up to DS-1 rate signals over a single balanced twisted-pair.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
174
Define asymmetrical digital subscriber line (ADSL).
reference page 1-52
It allows more bandwidth downstream (server to client) than
upstream (client to server).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
175
What down-to-upstream ratio is required for a good Internet
performance?reference page 1-53
10:1
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TDMM, 11th ed Chapter 1 - Principles of Transmission
176
What do asymmetrical digital subscriber line (ADSL) modems
incorporate to reduce errors caused by signal noise?
reference page 1-54
Forward error correction (FEC)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
177
What is a characteristic of rate-adaptive digital subscriber line
(RADSL) products?reference page 1-54
They allow the option of selecting the highest practical operating speed
automatically or the speed specified by the access provider (AP).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
178
What are the 3 general ranges of very high bit rate digital
subscriber line (VDSL) downstream rates?
reference page 1-54
1) 12.96 to 13.8 Mb/s
2) 25.92 to 27.6 Mb/s
3) 51.84 to 55.2 Mb/s
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TDMM, 11th ed Chapter 1 - Principles of Transmission
179
What are the 3 general ranges of very high bit rate digital
subscriber line (VDSL) upstream rates?
reference page 1-55
1) 1.6 to 2.3 Mb/s
2) 19.2 Mb/s
3) Equal to downstream
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TDMM, 11th ed Chapter 1 - Principles of Transmission
180
Define a baseband analog video signal.
reference page 1-56
A continuous varying signal whose magnitude and frequency represent the video content (i.e., luminance,
chrominance, and synchronization)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
181
Name 2 types of baseband analog video signal.
reference page 1-56
1) Composite
2) component
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TDMM, 11th ed Chapter 1 - Principles of Transmission
182
Describe composite formatreference page 1-56
The analog signal that contains all of the components necessary to
construct a monochrome or color picture but contains no audio
information.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
183
Describe component formatreference page 1-57
A signal that keeps separate the three color components, red, green, and blue (RGB), of the image using three cables to carry
the video signal.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
184
Define the term broadband video.
reference page 1-58
Composite baseband video and audio signals that are respectively amplitude and frequency
modulated with a radio frequency (RF) carrier in accordance with the video and audio
information that is conveyed.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
185
What cable category supports baseband composite signaling?
reference page 1-58
Category 3 or higher
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TDMM, 11th ed Chapter 1 - Principles of Transmission
186
What cable category supports component signaling?
reference page 1-58
Category 3 or higher
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TDMM, 11th ed Chapter 1 - Principles of Transmission
187
What cable category supports broadband analog community
antenna television (CATV) signaling?reference page 1-58
Category 5e or higher
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TDMM, 11th ed Chapter 1 - Principles of Transmission
188
Name the components of an idealized transmission line.
reference page 1-59
Two conductors separated by a dielectric material uniformly
spaced over the line’s length.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
189
How can a transmission line be represented?
reference page 1-61
By an electrical circuit containing only passive components that are arranged in a ladder network.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
190
What are the primary transmission line parameters?
reference page 1-62
Series resistance, series inductance, mutual
capacitance, and mutual conductance.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
191
Define series resistance (RLine).reference page 1-62
Expressed in ohms, it is the loop resistance of a pair of
conductors for an incremental length (∆X).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
192
Define series inductance (LLine).reference page 1-62
Expressed in henries (H), it is the loop inductance of a pair of conductors
for an incremental length (∆X).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
193
Define mutual capacitance (CLine).
reference page 1-62
Expressed in faradays (F), it is the loop capacitance of a pair of conductors
for an incremental length (∆X).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
194
Define mutual conductance (GLine).
reference page 1-62
Expressed in siemens (S), it is the loop conductance of a pair of conductors
for an incremental length (∆X).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
195
Define characteristic impedance (Z0).
reference page 1-64
It corresponds to the input impedance of a uniform
transmission line of infinite length.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
196
When is maximum power transferred from the source to the
load relative to impedance?reference page 1-64
When the source impedance (Zs) and the terminating impedance (Zt) are equal to the complex conjugate of the transmission line characteristic
impedance (Z0).
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TDMM, 11th ed Chapter 1 - Principles of Transmission
197
Define attenuationreference page 1-64
It corresponds to the ratio in decibels (dB) of the input power to the output power when
the load and source impedance are matched to the characteristic impedance
of the cable.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
198
Define crosstalkreference page 1-65
Signal interference between cable pairs.
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199
What causes crosstalk?reference page 1-65
Adjacent pairs of conductors and nearby cables.
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200
What is a signal traveling from the input to the output delayed
by?reference page 1-65
An amount equal to the length of cable divided by the velocity of
propagation (v) for the transmission medium.
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201
What does the velocity of propagation depend on?
reference page 1-65
The properties of the dielectric materials surrounding the
conductors.
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202
State the range of typical values for nominal velocity of
propagation (NVP).reference page 1-65
0.6c to 0.9c
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203
Define delay skew.reference page 1-66
The difference in propagation delay between any pairs within
the same cable sheath.
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204
Define reflection coefficient.reference page 1-67
The magnitude of the reflection caused by the difference between the terminating
impedance and the characteristic impedance of a cable.
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205
What is the formula for reflection coefficient (ρ)?
reference page 1-67
p = (Zt – Z0)/(Zt + Z0)
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206
What is return loss?reference page 1-67
The power of the reflected signal
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207
What is the formula for return loss?
reference page 1-67
RL = 10 log (p2)
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208
What is mismatch loss?reference page 1-67
The amount by which the power of a transmitted signal is
reduced.
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209
What is the formula for mismatch loss?
reference page 1-67
M = 10 log (1-p2)
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210
What is signal-to-noise ratio (SNR)?
reference page 1-68
The relationship between the level of the received signal and the
level of the received noise.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
211
What is the formula for signal-to-noise ratio (SNR)?
reference page 1-68
Where V0 is received signal voltage level; Vn is noise signal voltage level at the receiver; and Vi is transmitted
signal voltage level.
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212
What is attenuation-to-crosstalk ratio (ACR)?
reference page 1-68
The ratio obtained by subtracting attenuation from near-end
crosstalk (NEXT)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
213
What is power sum attenuation-to-crosstalk ratio
(PSACR)?reference page 1-68
The ratio obtained by subtracting attenuation from attenuation from the power sum near-end crosstalk
(PSNEXT) loss.
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214
What are balanced twisted-pair cables commonly used
for?reference page 1-69
Data communications in buildings.
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215
What does a balanced twisted-pair channel include as defined
by cabling standards?reference page 1-69
All cables, cords, and connections from an equipment connection at one end to the equipment connection at the other end.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
216
What are the most important balanced twisted-pair
transmission parameters?reference page 1-69
Signal attenuation as a function of frequency, signal reflections at terminations, and the amount of
noise relative to the received signal.
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217
What is the nominal characteristic impedance of balanced twisted-
pair cables?reference page 1-69
100 ohms at 100 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
218
What eight components may make up a balanced twisted-
pair channel?reference page 1-70
Telecommunications outlet/connector; balanced twisted-pair cable of 90m (295 ft);
Cross-connect system; equipment and patch cords;
consolidation point (CP); horizontal connection point (HCP);
transition point (TP); and multiuser telecommunications outlet assembly (MUTOA)
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219
What is channel attenuation?
reference page 1-71
The sum of the attenuation of the various components in the test channel plus the attenuation deviation adjusted for
temperature.
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220
What is channel near-end crosstalk (NEXT) loss?
reference page 1-71
The vector sum of crosstalk induced in the cable,
connectors, and patch cords.
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221
What is power sum near-end crosstalk (NEXT) loss?
reference page 1-71
A computation of the unwanted signal coupling from multiple
transmitters at the near end into a pair measured at the far end.
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222
What is return loss?reference page 1-71
A measure of the reflected energy caused by impedance mismatches
in the cabling system.
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223
Explain the term available bandwidth.
reference page 1-72
The frequency range where the signal-to-noise ratio (SNR) is
positive.
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224
What makes up a permanent link?
reference page 1-74
Up to 90m (295 ft) horizontal cabling, including a connector at each
end.
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225
Who should the designer consult to determine the overall suitability
of the cabling?reference page 1-76
Cabling systems suppliers, equipment manufacturers, and
systems integrators.
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226
Name 5 examples of restrictions on shared sheaths for specific applications using binder groups in multipair cables
with category 3 transmission characteristics.
reference page 1-81
1) No more than twelve 10Base-T systems in a common binder group.2) ANSI/TIA/EIA-232-F and ISDN applications should be on separate
binder groups.3) 3270-type signals converted to balanced twisted-pair should not share
the same binder group as 10M Ethernet.4) Signals from hosts with multiple controllers should not share the same
binder group5) Signals with significantly different power levels should not share the
same binder group
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227
Name 3 advantages of media conversion to balanced twisted-
pair.reference page 1-82
1) Cost-effective2) Simpler to implement
3) Requires less space in risers/conduits
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228
What are the 3 main categories of terminal
interfaces?reference page 1-82
1) Impedance-matching devices
2) Signal converters
3) Media filters
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229
What is an impedance-matching devices?
reference page 1-82
Adapting the balanced impedance of the twisted-pairs to the unbalanced impedance of coaxial cables.
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230
What is a signal converter?reference page 1-82
An electronic device that receives one type of signal and outputs
another type of signal.
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231
What is a media filter?reference page 1-83
A device that eliminates unwanted frequencies affecting link
performance that could radiate from the balanced twisted-pair cable.
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232
What is a transceiver?reference page 1-83
A radio frequency (RF) device capable of sending and
receiving radio frequencies.
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233
What are the basic 3 elements of a telecommunications
system?reference page 1-85
1) Transmitter
2) Medium
3) Receiver
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234
Describe the work of an optical transmitter.
reference page 1-85
It converts electrical signals to optical signals for transmission over an
optical fiber cable.
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235
Name 5 common characteristics of light pulses.
reference page 1-86
Center wavelength, spectral width,
emission pattern, average power,
and modulation frequency
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236
What are the 4 nominal wavelengths of optical fiber transmitters?
reference page 1-86
1) 850 nanometers (nm)2) 1300 nm3) 1310 nm4) 1550 nm
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237
Define spectral width.reference page 1-87
A range of wavelengths spread around a center wavelength over which the total power emitted by a transmitter
is distributed.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
238
How do wide spectral widths affect dispersion of light
pulses?reference page 1-88
They increase the dispersion.
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239
Define the average power of a transmitter.
reference page 1-89
The mean level of power output of a given light source during
modulation.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
240
What 2 parameters is the average coupled power specified
for?reference page 1-89
1) Optical fiber core size
2) Numerical aperture (NA)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
241
Define the modulation frequency of a transmitter.reference page 1-91
the rate at which the transmission changes in intensity.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
242
Name 4 major types of transmitter light sources.
reference page 1-91
1) light-emitting diodes (LED)2) Short wavelength lasers (CD)
3) Vertical cavity surface emitting laser (VCSEL)
4) Laser diodes (LD) or lasers
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TDMM, 11th ed Chapter 1 - Principles of Transmission
243
What are the 2 center wavelength ranges for light-
emitting diodes (LED)?reference page 1-91
1) 800 to 900 nanometers (nm)
2) 1250 to 1340 nm
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TDMM, 11th ed Chapter 1 - Principles of Transmission
244
What is the spectral width of light-emitting diodes
(LED)?reference page 1-91
30 to 60 nanometers (nm) full width half maximum (FWHM) in the lower region (near
850 nm) and up to 150 nm FWHM in the higher region (near 1300 nm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
245
What is the modulation frequency of light-emitting diodes (LED)?
reference page 1-91
Most are under 200 MHz but can be as high as 600 MHz
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TDMM, 11th ed Chapter 1 - Principles of Transmission
246
What is the average launched power level of light-emitting diodes (LED)?
reference page 1-91
-10 to -30 decibel milliwatts (dBm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
247
What is the center wavelength of short wavelength lasers?
reference page 1-92
780 nanometers (nm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
248
What is the spectral width of short wavelength lasers?
reference page 1-92
4 nanometers (nm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
249
What is the modulation frequency of short
wavelength lasers?reference page 1-92
1 GHz and higher
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250
What is the average launched power level of short wavelength
lasers?reference page 1-92
+1 to -5 decibel milliwatts (dBm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
251
What is the center wavelength of vertical cavity surface emitting lasers (VCSEL)?
reference page 1-93
850 nm and 1300 nm
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TDMM, 11th ed Chapter 1 - Principles of Transmission
252
What is the spectral width of vertical cavity surface emitting
lasers (VCSEL)?reference page 1-93
1 to 6 nm
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TDMM, 11th ed Chapter 1 - Principles of Transmission
253
What is the modulation frequency of vertical cavity
surface emitting lasers (VCSEL)?reference page 1-93
5 GHz and higher
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TDMM, 11th ed Chapter 1 - Principles of Transmission
254
What is the average launched power level of vertical cavity
surface emitting laser (VCSEL)?reference page 1-93
+1 to -3 decibel milliwatts (dBm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
255
What is the center wavelength of laser diodes (LD)?
reference page 1-94
1300 nm and 1550 nm
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TDMM, 11th ed Chapter 1 - Principles of Transmission
256
What is the spectral width of laser diodes (LD)?
reference page 1-94
1 to 6 nm
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TDMM, 11th ed Chapter 1 - Principles of Transmission
257
What is the modulation frequency of laser diodes
(LD)?reference page 1-94
5 GHz and higher
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TDMM, 11th ed Chapter 1 - Principles of Transmission
258
What is the average launched power level of laser diodes (LD)?
reference page 1-94
+1 to -3 decibel milliwatts (dBm)
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TDMM, 11th ed Chapter 1 - Principles of Transmission
259
Name 3 characteristic parameters of optical fiber
receivers.reference page 1-96
1) Sensitivity
2) Bit error rate (BER)
3) Dynamic range
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TDMM, 11th ed Chapter 1 - Principles of Transmission
260
Define sensitivity of an optical fiber receiver.
reference page 1-94
The minimum power level an incoming signal must have to achieve an acceptable level of
performance.
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TDMM, 11th ed Chapter 1 - Principles of Transmission
261
Define BER.reference page 1-96
Bit error rateThe fractional number of errors
allowed to occur between the transmitter and receiver.
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262
Define dynamic range.reference page 1-96
The range of power that a receiver can process at a specified bit
error rate (BER).
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263
Which 3 key factors determine the choice of optical fiber?
reference page 1-97
1) Active equipment
2) Distance
3) Bandwidth
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TDMM, 11th ed Chapter 1 - Principles of Transmission
264
Define bandwidth.reference page 1-98
The information-carrying capacity of a system.
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What are the essential determinants of the end-to-end
bandwidth in an optical fiber system?
reference page 1-98
Transmitter and optical fiber
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Define rise time.reference page 1-98
The time is takes transmitters to change from a low power state (logical 0) to a high power state
(logical 1).
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Define a unit of maximum optical fiber dispersion.
reference page 1-101
Picoseconds of pulse broadening per the product of nanometers (nm) of
transmitter spectral width and system length
(ps/nm-km)
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Which 3 effects does the calculation of bandwidth
requirements for a multimode system combine?
reference page 1-101
1) Transmitter rise time
2) Optical fiber modal dispersion
3) Chromatic dispersion
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Define chromatic dispersion.reference page 1-102
An event that occurs when the wider range of wavelengths in each pulse travels at a wider range of individual speeds.
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Define modal dispersion.reference page 1-102
An event that occurs when a pulse of light, which consists of hundreds of
modes in a MM optical fiber, broadens in time as it travels
through the optical fiber.
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State the two major types of optical fiber cable.
reference page 1-105
1) Multimode
2) Singlemode
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Which premises applications is multimode fiber best suited
for?reference page 1-105
Where links are less than:2000m (6560ft) for data rates of 155Mb/s or less.
550m (1804ft) for data rates of 1Gb/s or less.300m (984ft) for data rates of 10Gb/s or less.
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Which applications is singlemode fiber best suited for?
reference page 1-105
When:• Bandwidth requirements exceed MM
• Distances exceed MM capability• The application requires SM
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What are the 2 popular sizes of MM optical fiber cables?
reference page 1-106
(core diameter/cladding diameter)
1) 62.5/125 μm
2) 50/125 μm
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What is the core diameter of SM optical fiber cables?
reference page 1-110
(core diameter/cladding diameter is always 125 μm)
Between 8 and 9 μm
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What is the maximum attenuation value for SM outside cable at 1310 and 1550 nanometers
(nm)?reference page 1-110
0.5 decibels/kilometer (dB/km)
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What is the maximum attenuation value for SM inside cable at 1310
and 1550 nanometers (nm)?reference page 1-110
1.0 decibels/kilometer (dB/km)
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What is the maximum attenuation value for the 50/125 μm MM
cable at 850 nanometers (nm)?reference page 1-112
3.5 decibels/kilometers (dB/km)
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What is the maximum attenuation value for the 62.5/125 μm MM
cable at 1300 nanometers (nm)?reference page 1-112
1.5 decibels/kilometers (dB/km)
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How is the optical fiber cable bandwidth validated?
reference page 1-116
Through manufacturer’s specification and quality checking of the product
specification sheets with the installed components.
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How is the maximum permissible end-to-end attenuation
determined?reference page 1-116
By the average transmitter power and the receiver sensitivity
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State the 3 objectives of calculating optical fiber
performance.reference page 1-117
1) Calculate the link loss budget2) Calculate the passive cable system
attenuation loss3) Verify performance
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What is the link loss budget?reference page 1-119
The maximum allowable loss for the end-to-end cable system.
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What does the calculation of passive cable system
attenuation loss include?reference page 1-121
Optical fiber loss, connector loss,
splice loss, and other component losses
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What is the maximum recommended connection
loss?reference page 1-122
0.75 decibels (dB)
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How is the maximum recommended splice loss?
reference page 1-122
0.3 decibels (dB)