Term
Which common conductor Has the best conductivity? |
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Definition
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|
Term
Name the most common electrical conductors |
|
Definition
Copper, Copper Covered Steel, High strength copper alloy, Aluminum 1-2 |
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Term
Define copper-covered steel |
|
Definition
AKA copper clad steel, it combines the connectivity of copper with the strength of steel. Typically used for ariel self supporting drop wire. 1-2 |
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Term
Define high-strength copper alloy |
|
Definition
A mixture of copper and other alloys, which offer weight reductions or greater strength. These factors are especially important in aerospace and computer applications. Typically have 85% conductivity of copper. 1-2 |
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Term
List 3 advantages of solid conductors |
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Definition
Less costly, less complex termination systems, Better transmission performance at higher frequencies 1-4 |
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Term
List 3 advantages of stranded conductors |
|
Definition
More flexible, Longer flex life, Less susceptible to damage during crimp termination process 1-4 |
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Term
Define composite conductor |
|
Definition
conductors constructed from non-traditional materials. 1-4 |
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Term
List 5 advantages of composit conductors |
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Definition
Highly flexible, Lightweight, Inexpensive and easy to produce, Easily embedded into other materials, Low coefficient of Expansion 1-4 |
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Term
List 4 disadvantages of composit conductors |
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Definition
Poor analog transmission characteristics inc. high attenuation, especially above 4000Hz, Extremely poor digital transmission characteristics, Easily damaged unless encased in rigid material, Inconsistent quality 1-4 |
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Term
Are composite conductors recommended for modern telecommunications systems? |
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Definition
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Term
Insulation (dielectric) is used to isolate the flow of current by preventing direct contact between: |
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Definition
Conductors, Conductors and its environment 1-5 |
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Term
The electrical performance of balanced twisted-pair cables is inversely related to: |
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Definition
The insulation's dielectric and dissipation factor 1-5 |
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Term
Cables with a (lower/higher) dialectic constant and dissipation factor have a better performance. |
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Definition
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Term
Which two insulators offer improved transmission performance, lower smoke and flame spread characteristics as well as having better performing dialectic properties as temperatures increase? |
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Definition
Fluorinated ethylene porpylene (FEP [e.g.Teflon]), Ethylene chlorotrifluoroethylene (ECTFE[e.g. Halar]) 1-6 |
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|
Term
How does temperature increase affect dialectric constant? |
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Definition
Increased temperature increases dialectric constant. 1-6 |
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Term
Which two insulators offer improved transmission performance, lower smoke and flame spread characteristics as well as having better performing dialectric properties as temperatures increase? |
|
Definition
Fluorinated ethylene porpylene (FEP [e.g.Teflon]), Ethylene chlorotrifluoroethylene (ECTFE[e.g. Halar]) 1-6 |
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|
Term
List the common insulators and their dialectric constants |
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Definition
FEP 2.1, PE-2.3, ECTFE-2.5, PVC(CMR)-3.4, PVC(CMP)-3.6, XL polyolefin-3.8 1-6 |
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Term
The Ratio of capacitance of an insulated conductor to the capacitance of the same conductor uninsulated in the air. |
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Definition
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Term
Measure the maximum voltage that an insulation can withstand without breakdown. |
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Definition
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Term
The relative power loss in the insulation due to the molecular excitement and subsequent kinetic and thermal energy losses. |
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Definition
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Term
The insulations ability to resist the flow of current through it. |
|
Definition
Insulation Resistance 1-7 |
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Term
What's the main reason for twisting pairs of conductors? |
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Definition
to minimize crosstalk and noise by decreasing capacitance unbalance and mutual inductance coupling between pairs. physical symmetry is improved and externally generated noise coupling is reduced. 1-8 |
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Term
Define pair-to-pair capacitance unbalance |
|
Definition
Pair-to-pair capacitance is the measure of the electrical field coupling between two pairs if a differential voltage is applied to one pair and a differential noise voltage is measured on another pair in close proximity 1-8 |
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Term
|
Definition
Mutual Inductance is 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. 1-8 |
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Term
What two conditions cause crosstalk? |
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Definition
Mutual Inductance and capacitance unbalance. 1-8 |
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Term
What is done to reduce mutual unblanace and pair-to-pair capacitance(crosstalk) in multipair cables? |
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Definition
Each pair is given a different twist length within a standard range, usually a counterclockwise twist with lengths between 50mm and 150mm (2 and 6 in). 1-8 |
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Term
Cables with tight twisting, (less than .50 in) cat 5e, cat 6 and cat 6a, are primarily used where? |
|
Definition
Within and between computers and other data processing equipment. 1-8 |
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Term
|
Definition
The stray electrical energy radiated from electronic equipment and electronic systems. 1-9 |
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Term
What can EMI cause to signals in other nearby cables or systems. |
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Definition
Distortion, interference1-9 |
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Term
High temperatures can routinely be found in: |
|
Definition
Exterior Wall, Ceiling spaces (including plenums), Mechanical Rooms 1-9 |
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Term
Attenuation increases with temperature due to the increase in these 3 things |
|
Definition
Conductor resistance, insulation dielectric constant, dissipation factor 1-9 |
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Term
All twisted-pair cables are referenced in the cabling standard at this temperature: |
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Definition
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Term
Which two insulations(dialectrics) perform best at high temperatures? |
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Definition
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|
Term
|
Definition
A metallic covering or envelope enclosing the insulated conductor, individual group of conductors within a core, and cable core. 1-13 |
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Term
The effectiveness of a shield depends on? |
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Definition
Type and thickness fo the shield material,number and size of openings in the shield, effectiveness of the bonding connection to the ground. 1-13 |
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Term
What is measured to determine the shielding's effectiveness? |
|
Definition
Surface Transfer impedance 1-13 |
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|
Term
What is surface transfer impedance? |
|
Definition
The ratio of the conductor-to-shield voltages per unit length to the shield current. 1-13 |
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Term
What are the 6 main types of shields? |
|
Definition
Metal foils, either helically or longitudinally wrapped Braided Wire Spiral wrapped wire Metal tubes Reverse spiral wrapped wire Conductive nonmetallic materials Hybrids, which combine other types1-14 |
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Term
|
Definition
AKA Conduit. Has low resistance and is the best possible shield. However, their rigid nature makes them inappropriate for most normal cable applications.1-14 |
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Term
What five factors are the primary criteria for selecting a shield? |
|
Definition
Nature of the signal to be transmitted Electromagnetic Compatability (EMC) Regulations Magnitude of the EM fields through which the cable will run Physical environment and specific mechanical requirements Overall cable size limitations 1-14 |
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Term
How are EM fields usually expressed? |
|
Definition
Volts per meter at a given frequency1-14 |
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|
Term
Define shield effectiveness ratings |
|
Definition
Poor is less than 20dB, fair is 20 to 40dB, good is 40 to 60dB, Excellent is greater than 60dB 1-15 |
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|
Term
Why are drain wires used in shields? |
|
Definition
To provide an easier means of grounding, and to ensure shield continuity in foil shields.1-16 |
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|
Term
What types of shields are drain wires typically used with? |
|
Definition
Foil, nonmetallic, and hybrid shields, and occasionally with braided shields to make it easier to terminate the shield to ground1-16 |
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|
Term
Where are drain wires typically applied? |
|
Definition
Longitudinally next to the metallic part of the shield for the entire length of the cable1-16 |
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|
Term
What are drain wires typically made of? |
|
Definition
Solid or stranded copper conductors which may be bare or tinned.1-16 |
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Term
What determines what the drain wire should be made of? |
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Definition
The termination requirements of the application the cable is being used in.1-16 |
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|
Term
|
Definition
An oscillating, periodic signal.1-16 |
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|
Term
What three parameters are used to describe a sinusoid? |
|
Definition
Amplitude, frequency, Phase 1-16 |
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Term
The most fundamental example of an analog signal is a: |
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Definition
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|
Term
|
Definition
The number of sinusoid cycles per second.1-18 |
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Term
How is frequency measured? |
|
Definition
In Hertz (Hz). The faster the cycle, the higher the Hz. 1-18 |
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Term
What does a cycle time of .001 equal in Hz? |
|
Definition
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|
Term
What is the typical range of human hearing? |
|
Definition
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|
Term
What frequency range are telephones typically limited to? |
|
Definition
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|
Term
What does one Kilohertz (kHz) equal to in Hertz? |
|
Definition
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|
Term
What does one Megahertz (MHz)equal to in Hertz? |
|
Definition
1,000,000 Hz (1000kHz) 1-18 |
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Term
What does one Gigahertz (GHz)equal to in Hertz? |
|
Definition
1,000,000,000Hz (1000MHz) 1-18 |
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|
Term
One signal cycle is how many degrees? |
|
Definition
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|
Term
What is the VFL (Very Low Frequency) audio band range? |
|
Definition
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|
Term
What is the LF ( Low Frequency) audio band range? |
|
Definition
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|
Term
What is the MF (Medium Frequency) Radio(RF) band range? |
|
Definition
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|
Term
What is the HF (High Frequency) Radio(RF) band range? |
|
Definition
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|
Term
What is the VHF (Very High Frequency) Video(TV) band range? |
|
Definition
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|
Term
What is the UHF (Ultra High Frequency) Video(TV) band range? |
|
Definition
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|
Term
What is the CATV (Community Antenna Television) Video(TV) band range? |
|
Definition
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|
Term
What is the SHF (Super High Frequency) Radar band range? |
|
Definition
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|
Term
What is the EHF (Extremely High Frequency) Radar band range? |
|
Definition
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|
Term
Signal strength is measured in: |
|
Definition
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|
Term
What does a change of +3dB represent? |
|
Definition
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|
Term
What term is used to express power ratios of all types of analog and digital signals, regardless of medium? |
|
Definition
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|
Term
What happens when a signal encounters a discontinuity in the impedance of the medium carrying the signal? |
|
Definition
Some of the signal is reflected back to the transmitter (reflection, Echo) 1-22 |
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Term
In telephony, what delay is sufficient to cause an echo to be perceptible? |
|
Definition
50 milliseconds (ms) 1-22 |
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|
Term
What are the results of combining two sinusoids of the same frequency and amplitude? |
|
Definition
The sum would be a single sinusoid with an amplitude of 2A. 1-22 |
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|
Term
What are two sinusoids whose sum is zero? |
|
Definition
They are 180 degrees out of phase. 1-22 |
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|
Term
Name 3 basic components of a telecommunications transmission system? |
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Definition
Source of energy, Medium to carry the energy, Receiving device 1-23 |
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|
Term
The acoustic energy of speech is converted to an equivalent electrical signal at the transmitting handset by a microphone |
|
Definition
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|
Term
A balanced twisted-pair cable is commonly used as the transmission medium. |
|
Definition
Medium to carry energy 1-23 |
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|
Term
The transducer in the receiving handset acts like a small loudspeaker and converts the electrical energy back to sound energy for the ear. |
|
Definition
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|
Term
What converts voice information (sound waves) into electrical analog signals that can be transmitted over much longer distances than the sound waves can travel. |
|
Definition
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|
Term
Converts sound energy to electrical energy. |
|
Definition
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|
Term
Converts electrical energy to sound energy. |
|
Definition
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|
Term
How is impedance expressed? |
|
Definition
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|
Term
When does the maximum transmission of electrical power occur between devices? |
|
Definition
When they have the same impedance 1-24 |
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|
Term
How does impedance differ from resistance? |
|
Definition
impedance has both a phase and magnitude component 1-24 |
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|
Term
What is the preferred impedance of private line circuits and trunks? |
|
Definition
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|
Term
What is the preferred impedance of Central-office switching system line circuits? |
|
Definition
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|
Term
When is part of the transmitted signal reflected back to the transmitter, causing an echo? |
|
Definition
When the impedances of the transmission line and the receiver are not matched. 1-24 |
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|
Term
What is the speed of light? |
|
Definition
300,000KM/s-186,000 Mi/s 1-24 |
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|
Term
How is the speed of light represented? |
|
Definition
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|
Term
What percentage of the speed of light do signals travel through cables at? |
|
Definition
|
|
Term
|
Definition
Application of inductors placed at intervals along a cable that improves speech transmission quality. 1-25 |
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|
Term
How do loading coils improve speech quality? |
|
Definition
They compensate for the capacitance of a cable pair, They reduce the capacitive current loading in the range of audio frequencies 1-25 |
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|
Term
What are the most common distances between loading points? |
|
Definition
1.37KM (4495ft) for D loading and 1.83 KN (6004ft) for H loading 1-25 |
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|
Term
What capability must data networks have to support VoIP? |
|
Definition
Quality of Service (QOS) capabilities 1-26 |
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|
Term
What controls call traffic in VoIP systems? |
|
Definition
A Processor or server. 1-26 |
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|
Term
What are the three common interface options available for IP telephony? |
|
Definition
An IP phone A PC with IP telephony software and a mic/speaker or universal serial bus A multifunctional device with a wireless receiver. 1-26 |
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|
Term
Three common implementation options for IP telephony architecture: |
|
Definition
Separate lines- one for the IP telephones and one for the PC One line for everything using a dual port ip telephone or softphone Wireless connection using access points to connect the IP telephone. 1-27 |
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|
Term
How is uninterrupted power provided to IP phones? |
|
Definition
Power over Ethernet (POE) 1-28 |
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|
Term
What is the standard that defines power sources for Ethernet standard based products? |
|
Definition
IEEE 802.3af. It allows for devices to draw power from the same generic cabling used for data transmission. |
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|
Term
How is DC power delivered to POE devices? |
|
Definition
It may be delivered over the two unused pairs 10BASE-T or 100BASE-TX (pairs 4-5, and 7-8). Alternatively, the standard allows for delivering power over the two signal pairs (1-2 and 3-6) directly through switch ports. 1-28 |
|
|
Term
What are the three power source options for VoIP devices? |
|
Definition
VoIP Switches Midspan units Local power sources 1-28 |
|
|
Term
Changes from one state to another in discrete steps. |
|
Definition
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|
Term
What 3 steps convert analog signal into a digital signal? |
|
Definition
Filtering, Sampling, Quanizing/Companding 1-29 |
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|
Term
What does sampling consist of? |
|
Definition
Observing the exact value of the analog signal at regular time intervals 1-30 |
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|
Term
What sampling rate must be used to faithfully reproduce the analog signal when it is converted form analog to digital and then back to analog? |
|
Definition
At least twice the highest frequency component of the transmission. Example: 4kHZ frequency needs 8000 samples/s, 16kHZ needs 32,000 samples/s. 1-30 |
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|
Term
|
Definition
Each sampled value is assigned a discrete level, which approximates the analog signal at the sampling instant. 1-30 |
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|
Term
|
Definition
Non-uniform mapping between the analog sampled value to an assigned digital level. In the case of voice signals it is desirable to assign a greater number of levels when the speech signal is weak (close to zero) than when it is strong (close to one). 1-30 |
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|
Term
Define Pulse Code Modulation |
|
Definition
The entire process of converting an analog signal to an equivilant sequence of digital data using Filtering, sampling, and Quantizing/companding.A PCM sampled value can be assigned one of 256 levels, represented by an 8 bit binary number 1-30 |
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|
Term
Digital signal processing is used to: |
|
Definition
Encode speech signals at data rates lower than 64kb/s. 1-31 |
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|
Term
Adaptive differential pulse code modulation encodes at what Kb/s? |
|
Definition
40, 32, 24, or 16kb/s 1-31 |
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|
Term
Devices used to convert speech to digital data and its subsequent decoding to speech. |
|
Definition
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|
Term
Lower bit rates typically imply: |
|
Definition
Degraded signal quality 1-31 |
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|
Term
Define Time Division Multiplexing |
|
Definition
Combining binary data from several different sources ino a single composite bit stream. 1-31 |
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|
Term
The most popular form of TDM? |
|
Definition
|
|
Term
|
Definition
Analyzes statistics related to the typical workload of each input device and determines how much time each device should be allocated for data transmission on the telecommunications circuit. 1-31 |
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|
Term
|
Definition
|
|
Term
|
Definition
the digital data from 24 speech channels is combined for transmission over a single transmission channel, arranged in a frame. 1-32 |
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|
Term
What is the data rate for DS-1 format? |
|
Definition
(8 b/s channel x 24 channels+ 1 framing bit) x 8000 frames/s =1.544 Mb/s 1-32 |
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|
Term
T1 lines are designed to carry which frame? |
|
Definition
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|
Term
What is the PCM-30 format? |
|
Definition
the digital data from 30 speech channels is combined for transmission over a single transmission channel, arranged in a frame. 1-32 |
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|
Term
Data rate for PCM-30 format? |
|
Definition
(8 b/s channel x 32 channels) x 8000 frames/s = 2.048 Mb/s 1-33 |
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|
Term
|
Definition
The process of reconstituting the individual channels form the composite signal. 1-33 |
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|
Term
Demultiplexing and Multiplexing equipment is called? |
|
Definition
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|
Term
When using DS1 multiplexing, is it possible to extract a single channel from the digital stream without demultiplexing back to the first order? |
|
Definition
|
|
Term
|
Definition
12 T1 Frames in the us, or 16 E1 Frames in Europe 1-34 |
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|
Term
What is the basic unit of digital data? |
|
Definition
|
|
Term
What does the modification of the shape and pattern of pulses to achieve more efficient transmission refer to? |
|
Definition
The final step in the encoding process 1-34 |
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|
Term
What are line-encoding techniques designed to do? |
|
Definition
Eliminate the dc component, and improve timing recovery 1-34 |
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|
Term
Name two common encoding methods |
|
Definition
Manchester, and alternate mark inversion (AMI) |
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|
Term
What term describes the rate at which a signal can change state? |
|
Definition
|
|
Term
|
Definition
A means of encoding digital data that uses variations in signal amplitude and phase 1-39 |
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|
Term
How many sinusoidal carriers does a QAM signal have? What are they? |
|
Definition
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|
Term
Mathematically, I and Q QAM signals are equivalent to? |
|
Definition
Sine wave and Cosine wave 1-39 |
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|
Term
A frequency band is sliced into several hundred (typically 256) subbands, each of which carries a signal modulated with part of the data stream. |
|
Definition
Discrete Multitone (DMT) 1-39 |
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|
Term
What encoding uses all 4 cable pairs for simultaneous transmission in both directions. |
|
Definition
|
|
Term
What does 8B/ 1Q4 PAM5 stand for? |
|
Definition
8 bits is converted to one transmission of four quinary symbols (1Q4) across four balanced twisted pairs. Each bit represents 2 binary bits using PAM5 modulation. 1-39 |
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|
Term
The information transmitted by a telecommunications system can originate in what two fundamental forms? |
|
Definition
|
|
Term
What represents each fundamental form? |
|
Definition
Digital data is represented by a string of bits. Analog data (speech waveform) is represented by the continuous variation of the data 1-40 |
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|
Term
What major advantage does digital data have over analog? |
|
Definition
digital data can be transmitted over essentially unlimited distances if the data is received and regenerated at intervals before it is degraded by noise 1-40 |
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|
Term
T/F Over long distances, the effects of added noise are cumulative to analog data |
|
Definition
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|
Term
Transmission circuits are generally classified as? |
|
Definition
Simplex, Half-Duplex, Full-Duplex 1-41 |
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|
Term
The transmission of signals in one direction only? |
|
Definition
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|
Term
The transmission of signals in either direction but only in one direction at a time. |
|
Definition
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|
Term
The transmission of signals in either direction at the same time. |
|
Definition
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|
Term
This transmission occurs without precise time relationship in the signal characters and the bits that represent them, and carries with it start and stop signals. |
|
Definition
Asynchronous Transmission 1-42 |
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|
Term
Transmission method commonly used between microcomputer users below speeds of 20kb/s |
|
Definition
Asynchronous Transmission 1-42 |
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|
Term
How is synchronous transmission performed? |
|
Definition
by synchronizing the data bits in phase or unison with equally spaced clock signals or pulses. 1-42 |
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|
Term
Which transmission type is more efficient? |
|
Definition
Synchronous, because Asynchronous transmissions require the addition of start and stop bits 1-42 |
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|
Term
|
Definition
Intended for residential and small business users Uses a digital signal consisting of two 64 kb/s B channels and one 16kb/s D channel Has a total information capacity of 144kb/s (line rate 160 kb/s) 1-43 |
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|
Term
Define Primary Rate ISDN North America |
|
Definition
Is intended for large business users Has a total information capacity of 1.536 mb/s ( total line rate 1.544 Mb/s) Uses a digital signal consisting of 23 B channels and one D channel, each operating at 64kb/s 1-43 |
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|
Term
Define Primary Rate ISDN Europe |
|
Definition
Is intended for large business users Has a total information capacity of 1.92 Mb/s mb/s ( total line rate 2.048 Mb/s) Uses a digital signal consisting of 30 B channels and one D channel, each operating at 64kb/s 1-43 |
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|
Term
|
Definition
High-bit rate digital subscriber line A method of transmitting DS1 rate signals over balanced twisted pair cables Requires no repeaters on lines less than 3600m (11,810 ft) using 24awg. Transmits 1.544mb/s (ds1) or 2.048 mb/s (e1) in bandwidths of less than 500khs, both up and downstream. Requires two twisted pairs for T1 and three twisted pairs for E1 each operating at half or third speed 1-44 |
|
|
Term
|
Definition
Digital subscriber line 1-44 |
|
|
Term
|
Definition
Symmetrical digital subscriber line Transmits DS1 rate signals over a single balanced twisted pair. Suits the market for individual subscriber premises that are equipped with only a single telephone line 1-44 Distance limitations of 3000m (9840ft) |
|
|
Term
|
Definition
Allows more bandwidth downstream than upstream connects to a modem using a single pair and creates three channels: A high-speed downstream channel, a medium speed duplex channel, and a POTS line 1-45 |
|
|
Term
Good internet performance requires what down-stream to up-stream ratio? |
|
Definition
|
|
Term
Which DSL technology is ideal for home applications? |
|
Definition
|
|
Term
ADSL downstream data rates depend on what factors? |
|
Definition
Length of twisted pair cable AWG size the presence of bridged taps Crosstalk interference 1-46 |
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|
Term
What do ADSL modems incorporate to reduce errors caused by impulse noise? |
|
Definition
Forward Error Correction (FEC) 1-46 |
|
|
Term
|
Definition
Very High bit-rate digital subscriber line 1-47 |
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|
Term
Examples of video signaling are: |
|
Definition
Video Graphics Array (VGA) Super video graphics array (SVGA) High Definition TV (HDTV) 1-49 |
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|
Term
Name the five active signals in a VGA video signal |
|
Definition
Horizontal sync- digital signal, used to sync the video Vertical sync- digital signal, used to sync the video Red (R.) analog signal (0.0.7v) used to control the color Green (G) analog signal (0.0.7v) used to control the color Blue (b) analog signal (0.0.7v) used to control the color 1-49 |
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|
Term
Define Baseband analog video signal |
|
Definition
A continuous varying signal whose magnitude and frequency represent the video content. The signal contains all the necessary information to reproduce a picture but does not modulate a RF carrier. (i.e it's not a cable tv channel) 1-49 |
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|
Term
Name the two commonly used terms to describe the different types of baseband signaling |
|
Definition
|
|
Term
Which type of video transmission signal carries all the components necessary to construct a picture (on one cable) but contains no audio information? |
|
Definition
|
|
Term
Which type of Video transmission separates the Red, green and blue colors on three different cables separating the primary color information from the luminance signal to provide reduced crosstalk and permit higher resolution? |
|
Definition
|
|
Term
Which video format refers to composit video and audio signals that are amplitude and frequency modulated, respectively, with an RF carrier in accordance with the video and audio information that needs to be conveyed? |
|
Definition
|
|
Term
What does each RF carrier represent? |
|
Definition
|
|
Term
RF carriers (TV channels) are separated by how many MHz? |
|
Definition
|
|
Term
Category 3 and higher cable can support baseband signaling over what distance? |
|
Definition
in excess of 100m (328ft) 1-51 |
|
|
Term
RGB component signals are supported for a minimum of 100M (328ft) using what? |
|
Definition
Passive media adapters 1-51 |
|
|
Term
Cat5e cable can support what range of CATV channels over a short distance? |
|
Definition
|
|
Term
What does an idealized transmission line consist of? |
|
Definition
two conductors that are separated by a dielectric material uniformly spaced over its length 1-52 |
|
|
Term
What was the earliest functional model of a transmission line based on? |
|
Definition
|
|
Term
What is the voltage drop in each conductor directionally proportional to? |
|
Definition
The current flow and resistance of the line in ohms 1-53 |
|
|
Term
Larger conductor diameters do what to resistance |
|
Definition
|
|
Term
How do higher conductivity conductors affect resistance? |
|
Definition
|
|
Term
What does conductance represent? |
|
Definition
Leakage of current through nonideal dielectrics 1-53 |
|
|
Term
What are units of capacitance measured in? |
|
Definition
|
|
Term
What is the electrical field in the dialectric space typically modeled as? |
|
Definition
|
|
Term
What are units of inductance measured in? |
|
Definition
|
|
Term
What is inductance defined as? |
|
Definition
The concentric magnetic field that surrounds each conductor 1-55 |
|
|
Term
what creates a larger magnetic field, and hence higher inductance, between conductors? |
|
Definition
a larger separation between conductors a material of higher permeability 1-55 |
|
|
Term
How can a transmission line be represented? |
|
Definition
By an electrical circuit containing only passive components that are arranged in a ladder network 1-56 |
|
|
Term
How is the transmission ladder network built up? |
|
Definition
It is built up of cascaded sections, each with a very small length, consisting of a series resistance and a series inductance in parallel with a mutual capacitance and a mutual conductance 1-56 |
|
|
Term
What four distributed components are called the primary transmission parameters? |
|
Definition
Series resistance Series inductance Mutual capacitance mutual conductance 1-56 |
|
|
Term
Define series resistance (R.) |
|
Definition
The loop resistance of a pair of conductors for an incremental length, expressed in ohms. 1-56 |
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|
Term
Define series inductance (H) |
|
Definition
The loop inductance of a pair of conductors for an incremental length, expressed in Henries (H) 1-56 |
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|
Term
Define mutual capacitance (C.) |
|
Definition
Capacitance between a pair of conductors for an incremental length, expressed in farads (F). 1-56 |
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|
Term
Define Mutual conductance (G) |
|
Definition
the conductance between a pair of conductors for an incremental length, expressed in seimons (S) 1-56 |
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|
Term
The electrical and magnetic fields, along with the circuit currents and voltages, are not independent, but are intrinsically related through what equations? |
|
Definition
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|
Term
Of a uniform transmission line if infinite length what does characteristic impedance correspond to? |
|
Definition
|
|
Term
Characteristic impedance has both a _______ and a ______ |
|
Definition
resistive component and a reactive component 1-58 |
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|
Term
When is maximum power transferred from the source to the load? |
|
Definition
When the source impedance and the terminating impedance are equal to the complex conjugate of the transmission line characteristic impedance 1-58 |
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|
Term
The ratio in decibels of input power to output power when the load and source impedance are matched to the characteristic impedance of the cable is called what? |
|
Definition
|
|
Term
Crosstalk is signal interference between cable pairs, which may be caused by a pair picking up unwanted signals from what? |
|
Definition
Adjacent pairs of conductors nearby cables 1-59 |
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|
Term
What are the five different type of crosstalk measurements? |
|
Definition
Near end crosstalk (NEXT) Far end crosstalk (FEXT) Equal level far end crosstalk (ELFEXT) Power sum near end crosstalk (PSNEXT) Power sum equal level far end crosstalk (PSELFEXT) 1-59\ |
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|
Term
What is the term defined as a signal traveling from the input to the output is delayed in time by an amount equal to the length of cable divided by the velocity of propagation for the transmission medium? |
|
Definition
Nominal velocity of propagation (NVP) 1-59 |
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|
Term
What is the velocity of propagation of an ideal transmission line consisting of two conductors in Free space? |
|
Definition
The velocity of propagation is equal to the speed of light in a vacuum 1-59 |
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|
Term
NVP is stated as a percentage of what? |
|
Definition
The speed of light. (i.e NVP 62= 62% the speed of light) 1-59 |
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|
Term
What are the typical NVP ranges for 100 ohm balanced twisted pair? |
|
Definition
|
|
Term
List the propagation delay equation |
|
Definition
Delay (ns/100m) = 534+36 / the square root of the frequency Mhz 1-60 |
|
|
Term
|
Definition
Delay skew is the difference in propagation delay between any pairs within the same cable sheath 1-60 |
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|
Term
The delay skew between the fastest and the slowest pairs in a category 6/class E and a category 5e/class D cable shall not exceed |
|
Definition
45 nanoseconds (ns) at 100 m 1-60 |
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|
Term
The magnitude of the reflection in cases where the terminating impedance and the load impedance do not match is called what? |
|
Definition
reflection coefficient (p) 1-60 |
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|
Term
If the impedance of the terminating device is less than the load then what happens to the reflected wave? |
|
Definition
The polarity of the reflected wave is inverted 1-60 |
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|
Term
If the impedance of the terminating device is greater than the load (Zt>Zo), then the polarity of the reflected wave is what? |
|
Definition
|
|
Term
What is the equation to determine reflection coefficient? |
|
Definition
Reflection coefficient (p) = (Zt-Zo)/(Zt+Zo) 1-60 |
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|
Term
The power of the reflected signal is called what? |
|
Definition
|
|
Term
Return loss is derived fron what other parameter? |
|
Definition
Reflection coefficient 1-61 |
|
|
Term
How is return loss measured? |
|
Definition
|
|
Term
The better the impedance matching, the lower the reflected energy, and the _______ the return loss. |
|
Definition
|
|
Term
Derived from the reflection coefficient______ is the amount of the power of the transmitted signal that is reduced. |
|
Definition
|
|
Term
How is mismatch loss measured? |
|
Definition
|
|
Term
Define Signal-to-noise ratio (SNR) |
|
Definition
The relationship between the level of received signal and the level of the received noise. 1-61 |
|
|
Term
How is the attenuation-to-crosstalk (ACR) ratio normally stated? |
|
Definition
at a given frequency 1-61 |
|
|
Term
What is defined as a ratio in dB determined by subtracting the attenuation from PSNEXT loss? |
|
Definition
Power sum attenuation-to-crosstalk ratio (PSACR) 1-62 |
|
|
Term
How is the power sum attenuation-to-alien-crosstalk ratio (PSAACRN) determined? |
|
Definition
by subtracting the attenuation from the power sum alien near-end crosstalk (PSANEXT) loss between cables or channels in close proximity. 1-62 |
|
|
Term
How is the power sum attenuation-to-alien-crosstalk ratio at the far end (PSAACRF) determined? |
|
Definition
by subtracting the attenuation from the power sum alien far-end crosstalk (PSAFEXT) loss between cables or channels in close proximity. 1-62 |
|
|
Term
What type of cables are commonly used for data communications in commercial buildings? |
|
Definition
Balanced twisted pair 1-63 |
|
|
Term
What does successful implementation of the balanced twisted-pair approach for LAN applications require? |
|
Definition
Proper design, installation, and testing to ensure that channel performance requirements are met. 1-63 |
|
|
Term
|
Definition
All cables, cords, and connectors from an equipment connection at one end to the equipment connection at the other end. 1-63 |
|
|
Term
What do the transmission characteristics of telecommunications cables, cords, and connectors depend on? |
|
Definition
the frequency of the applied signal 1-63 |
|
|
Term
What are the three most important transmission parameters? |
|
Definition
signal attenuation as a function of frequency signal reflections at terminations Amount of noise relative to the received signal 1-63 |
|
|
Term
What is the nominal characteristic impedance of balanced twisted pair cables? |
|
Definition
|
|
Term
What eight components may make up a channel? |
|
Definition
Telecommunications outlet/connector Balanced twisted-pair cable of 90m cross-connect system Equipment and patch cords Consolidation point (CP) Horizontal connection point (HCP) Transition point (TP) Multiuser telecommunications outlet assembly (MUTOA) 1-64 |
|
|
Term
What is channel insertion loss equal to? |
|
Definition
The sum of the attenuation of the various components in the test channel, plus all the mismatch losses at cable and connector interfaces, and the increase in attenuation adjusted for temperature. 1-65 |
|
|
Term
What are the longest a channel can be installed |
|
Definition
90meters of horizontal cable, and 10m of equipment and patch cords. 1-65 |
|
|
Term
Strictly speaking attenuation is what? |
|
Definition
a measure of the signal loss under ideal termination conditions where the load and source impedance matches the cable characteristic impedance and all components are exactly matched in impedance. 1-65 |
|
|
Term
Define channel Near end crosstalk |
|
Definition
The vector sum of crosstalk induced in the cable, connectors, and patch cords 1-65 |
|
|
Term
NEXT is dominated by components in what zone? |
|
Definition
The near zone (<20m [66ft]) 1=65 |
|
|
Term
To verify performance NEXT must be measured where? |
|
Definition
At both the TR and the telecommunications outlet/connector. 1-65 |
|
|
Term
What is defined as a computation of the unwanted signal coupling from multiple transmitters at the near end into a pair measured at the far end? |
|
Definition
Power sum equal level far-end crosstalk (PSELFEXT) 1-66 |
|
|
Term
What is a measure of the reflected energy caused by impedance mismatches in the cabling system? |
|
Definition
|
|
Term
What is defined as the minimum signal level at the output of a channel relative to the peak NEXT noise level? |
|
Definition
Power sum attenuation-to-crosstalk ratio (PSACR) 1-66 |
|
|
Term
What should be done to ensure an acceptable bit rate error (BER)? |
|
Definition
The signal should be a reasonable replica of the transmitted signal. 1-66 |
|
|
Term
|
Definition
A decrease in signal magnitude. 1-66 |
|
|
Term
What is the net effect of attenuation at high frequencies over balanced twisted-pair cables? |
|
Definition
Not only a reduction in amplitude, but aso a change in the shape of the transmitted signal as it appears at the receiver. 1-66 |
|
|
Term
There is a fundamental relationship between the bandwidth of a channel expressed in Hz and what? |
|
Definition
The data rate expressed in bits per second (b/s). 1-67 |
|
|
Term
For most LAN systems today, what is the dominant noise source? |
|
Definition
NEXT interference between all transmit pairs and a receive pair. 1-67 |
|
|
Term
What are the performance drivers of a balanced twisted pair channels? |
|
Definition
Insertion loss PSNEXT loss PSELFEXT loss return loss for bidirectional applications. 1-67 |
|
|
Term
What do ITS designers need to know when measuring insertion loss? |
|
Definition
That the cable length and signal frequency affect the amount of loss. 1-67 |
|
|
Term
What does the permanent link consist of? |
|
Definition
Up to 90m of horizontal cabling, including a connector at each end. 1-68 |
|
|
Term
What is often a weak link in a cabling system? |
|
Definition
|
|
Term
Cross-connect jumpers and cables used for patch cords shall meet the same transmission performance requirments as those specified for 100 ohm horizontal cabling with the following exceptions: |
|
Definition
For stranded conductor cables, stranded conductor cordage has more attenuation than solid conductor cable. A requirment for Cat5e/6/6a standard is a patch cord return loss test. 1-68 |
|
|
Term
A deviation of _____ above normal impedance of 100 ohms can result in a failure |
|
Definition
|
|
Term
Why must the transmission catagories of all components used in the same cabling system be matched? |
|
Definition
To provide a consistantly high level of reliability and transmission performance 1-69 |
|
|
Term
Why must caution be exercised when using cables with mixed insulation? |
|
Definition
The velocity of propagation can vary with the insulation used, and the skew between pairs may be excessive, for some high-speed applications. 1-69 |
|
|
Term
To determine the overall suitability of the cabling described for specific applications, the IT designer should also consult with the: |
|
Definition
Cabling system suppliers Equipment manufacturers System Integrators 1-69 |
|
|
Term
With regard to balanced pair twisted cables it is generally recommended ______ application(s) be supported under one sheath |
|
Definition
|
|
Term
List 5 examples of restrictions on shared sheaths for specific applications using binder groups in multipair cables having cat 3 transmission characteristics: |
|
Definition
No more than twelve 10BASE-T systems can share a common binder group Signals with significantly different power levels shoud not share the same binder group. Signals with hosts with multiple controllers should not share the same binder group. 3270-type signals converted to balanced twisted-pair should not share the same binder group as 10Mb/s Ethernet ANSI/TIA/EIA-232-F Interface between data terminal Equipment and Data Circuit-Terminating Equipment Employing Serial Binary Data Interchange, and ISDN applications should be on seperate binder groups. 1-75 |
|
|
Term
Can data transmission interfaces that are unbalanced with respect to ground be mixed with other systems? |
|
Definition
|
|
Term
ITS Designers and installers frequently try to extend which interface type past it's specified limit of 45.8M(150ft) on metallic cable, based on the 2500picofarad (pF) limit? |
|
Definition
|
|
Term
Backbone cabling systems may be called upon to carry what? |
|
Definition
Both analog and digital signals from more than one type of LAN,PBX, key system, and alarm system. 1-75 |
|
|
Term
Generally, all baseband digital data transmission systems that operate at speeds of 64 kb/s or less are compatible with analog and digital key system station circuits as long as they use what? |
|
Definition
Balanced transmission schemes. 1-75 |
|
|
Term
In most cases, what limitation applies when media conversion to balanced twisted pair is used? |
|
Definition
Stricter distance limitations 1-76. |
|
|
Term
What are the three advantages to using media conversion to balanced twisted pair? |
|
Definition
Cost-effective solution Moves can be simplier to implement Less space in risers/conduit is required. 1-76 |
|
|
Term
What are the three main catagories of terminal interfaces? |
|
Definition
Impedance-matching devices Signal converters Media Filters 1-76 |
|
|
Term
What are impedance-matching devices commonly known as? |
|
Definition
|
|
Term
What is the term Balun taken from? |
|
Definition
The words BALanced and UNbalanced. 1-76 |
|
|
Term
What are baluns used for? |
|
Definition
To adapt the balanced impedance of twisted pairs to the unbalanced impedance of coaxial cables. 1-76 |
|
|
Term
When are baluns required? |
|
Definition
Whenever a transition is made from twisted-pair to coaxial or from coaxial to twisted-pair. 1-76 |
|
|
Term
What is used to convert UTP cabling to coaxial cabling to support the transmission of video over UTP? |
|
Definition
Baluns, normally located in the wall outlet for video service. 1-76 |
|
|
Term
What is a signal converter? |
|
Definition
electronic Devices that receive one type of signal and output another type of signal. 1-76 |
|
|
Term
What are some fo the features of signal converters? |
|
Definition
Filtering Amplification 1-76 |
|
|
Term
What are the four types of signal converters? |
|
Definition
Analog-to-digital converters (ADCs) Digital-to-analog converters (DACs) Voltage converters Frequency converters or translators that convert an input frequency to a different output frequency. 1-76 |
|
|
Term
What are two advantages of signal converters? |
|
Definition
Decrease the risk of transmission and EMI problems Extend the unbalanced signal reach of a DTE. 1-77 |
|
|
Term
When are media filters required? |
|
Definition
For the transmission of higher frequencies on balanced twisted-pair. 1-77 |
|
|
Term
What do media filters eliminate? |
|
Definition
The filters eliminate unwanted frequencies affecting link performance that could radiate from the balanced twisted-pair cable. 1-77 |
|
|
Term
|
Definition
Radio Frequency devices capable of sending and receiveing radio frequencies. They may be wired or wireless and are used in many two-way telecommunications devices1-77 |
|
|
Term
Are transceiver devices used in optical decives? |
|
Definition
|
|
Term
Knowledge of the design and performance of transmission systems is important to whom? |
|
Definition
|
|
Term
What should a transmission circuit have if it is designed correctly? |
|
Definition
be cost effictive meet the standards A uniform characteristic impedance that is matched to the equipment Low insertion loss/attenuation High SNR and available bandwith Velocity of propagation that is relatively constant with frequency High NEXT and FEXT loss between pairs High NEXT and FEXT loss between pairs in adjacent cables and connectors High noise immunity 1-77 |
|
|
Term
What are the two transmission media most often encountered in structured cabling systems? |
|
Definition
Twisted-pair copper and optical fiber. 1-79 |
|
|
Term
What are the three parts of a simple telecommunications system? |
|
Definition
Transmitter Medium receiver. 1-79 |
|
|
Term
What does an optical transmitter do? |
|
Definition
Receives a modulated electrical signal. Converts modulated electrical signal to optical signal into a modulated optical signal (usually digital). Launches the modulated optical signal into an optical fiber. 1-80 |
|
|
Term
What are the four different types of optical fiber transmitters? |
|
Definition
Light-emitting diode (LED) Short wavelength laser compact disk (CD) Vertical cavity surface emitting laser (VCSEL) Laser diode (LD). 1-80 |
|
|
Term
What common characteristics of the light pulses emitted by an optical transmitter influence optical fiber transmission? |
|
Definition
Center wavelength Spectral Width Emission pattern Average power modulation frequency 1-80 |
|
|
Term
What are the four nominal wavelengths that optical fiber transmitters normally transmit at? |
|
Definition
850 nm 1300 nm 1310 nm 1550 nm 1-80 |
|
|
Term
With regards to optical fiber transmitters what is the nominal value also called? |
|
Definition
the center wavelength. 1-80 |
|
|
Term
What is the periodocity of the EM radiation emitted by optical transmitters traditionally specified by? |
|
Definition
|
|
Term
|
Definition
The range of wavelengths that are emmited by a transmitter, spread around a center wavelength. 1-81 |
|
|
Term
How is spectral width specified? |
|
Definition
|
|
Term
How is spectral width usually given? |
|
Definition
In a range of wavelengths emitted with an initensity level greater than or equal to one half of the peak intensity level, referred to as the full width half maximum (FWHM) spectral width. 1-82 |
|
|
Term
What does wide spectral widths lead to? |
|
Definition
Increased dispersion of light pulses as the light pulses propagate through an optical fiber. 1-82 |
|
|
Term
What is the average power of the transmitter? |
|
Definition
The mean level of power output of a given light source during modulation. 1-82 |
|
|
Term
How is the average coupled power usually measured? |
|
Definition
Decibel milliwatt (dBm) or milliwatt (mW) 1-82 |
|
|
Term
What is used to specify a particular average coupled power? |
|
Definition
Optical fiber core size Numerical aperture (NA) 1-82 |
|
|
Term
The more power a transmitter launches into an optical fiber: |
|
Definition
The more optical power is available for the loss budget. 1-82 |
|
|
Term
What happens when there's a mismatch between the core size and Numerical Aperture (NA)? |
|
Definition
It may cause a different level of power to be launched into the optical fiber than the expected average power. 1-82 |
|
|
Term
What type light does a LED launch? |
|
Definition
A large "Spot" size of light. 1-82 |
|
|
Term
Which two optical transmitter light sources launch the same average power into a 62.5um or 50um fiber as is the expected average power? |
|
Definition
Vertical cavity surface emitting laser(VCSEL) Short wavelength lasers (CD) 1-82 |
|
|
Term
What is the modulation frequency of a transmitter? |
|
Definition
The rate at which the transmission changes in intensity.1-84 |
|
|
Term
How are optical transmitters usually modulated? |
|
Definition
By a string of bits that turns the transmitters light source on and off. 1-84 |
|
|
Term
What is the maximum Mb/s data rate of LEDs? |
|
Definition
|
|
Term
What is the data rate of lasers? |
|
Definition
In excess of 10Gb/s. 1-84 |
|
|
Term
What are the four major types of transmitter light sources? |
|
Definition
Light emitting diodes (LEDs) Short wavelength lasers (CDs) Vertical cavity surface emitting laser (VCSEL) Laser diodes (LDs) or lasers 1-84 |
|
|
Term
|
Definition
Relatively inexpensive Used in multi-mode applications Center wavelength of 800 to 900 nanometers (nm) Spectral width of 30 to 60nm fullwidth half maximum (FWHM) near 850nm up to 150 mn FWHM near 1300nm Most have low modulation frequencies (under 200MHz), but can be as high as 600 Mhz (622mB/s max) Average launched power level is -10 to -30 dBm (Well below expected average power)1-86 |
|
|
Term
|
Definition
Relatively inexpensive Used in multi mode applications at high data rates (1Gb/s and above) Center wavelength of 850 nanometers (nm) and 1300nm Spectral width of 1 to 6nm Modulation frequency up to 10GHz Average launch power +1 to -3dBm 1-86 |
|
|
Term
Describe Short wavelength lasers (CD) |
|
Definition
Relatively inexpensive Used in multi mode applications at higher data rates (200Mb/s to 1Gb/s) Principal use is Fibre Channel Center wavelength of 780 nanometers (nm) Spectral width of 4nm Modulation frequency exceeds 1GHz Average launch power +1 to -5dBm 1-85 |
|
|
Term
Describe laser diodes (LD) |
|
Definition
More expensive than the others Used almost exclusively In SM fiber Center wavelength of 1300 nanometers (nm) (Predominantly) of 1550 (becoming popular for long distance) Spectral width of 1 to 6 nm Modulation frequency exceeds 5GHz Average launch power +1 to -3dBm 1-87 |
|
|
Term
Do LED or VCSEL optical fiber transmission sources launch their full power into 62.5 and 50um fiber? |
|
Definition
|
|
Term
What are the characteristic parameters of optical fiber receivers? |
|
Definition
Sensitivity Bit error rate (BER) Dynamic range 1-89 |
|
|
Term
Optical fiber receivers are selected to match what? |
|
Definition
|
|
Term
How are sensitivity and Bit rate error related? |
|
Definition
The sensitivity of a receiver specifies the minimum power level an incoming signal must have to achieve an acceptable level of performance, which is usually specified as a BER. 1-89 |
|
|
Term
|
Definition
The fractional number of errors allowed to occur between the transmitter and receiver. |
|
|
Term
What does a BER of 10-9 mean? |
|
Definition
One bit error for each one billion bits sent. |
|
|
Term
What happens if too little power is received at the detector? |
|
Definition
The number of bit errors increases beyond the maximum BER specified for the receiver. 1-89 |
|
|
Term
If too little power is received at the detector the results can be: |
|
Definition
A detected signal with high bit errors No signal detection. 1-89 |
|
|
Term
What happens if too much power is received at the detector? |
|
Definition
Higher than acceptable Bit rate error (BER). Possible physical damage to the receiver. 1-89 |
|
|
Term
|
Definition
the range of power that a receiver can process at a specified BER. 1-89 |
|
|
Term
What are the three key factors in determining which optical fiber to use in a given application? |
|
Definition
Active equipment Distance Bandwidth. 1-90 |
|
|
Term
What is the most important factor in determining which optical fiber to use? |
|
Definition
The application to be serviced. 1-90 |
|
|
Term
How is distanced determined when selecting an optical fiber type or size based on the active components? |
|
Definition
The end-to-end length of the longest link in the system. 1-90 |
|
|
Term
What does increasing the length of a link result in? |
|
Definition
An increased total attenuation of the signal from one end to the other, Reduced system bandwidth due to dispersion Signal distortion caused by the differential mode delay (DMD) phenomenon in multi-mode fiber. 1-90 |
|
|
Term
What type of fiber must be used if the active equipment has LEDs or VCSELs? |
|
Definition
Either 50/125um or 62.5/125um MM fiber. 1-91 |
|
|
Term
What fiber type must be used if the active equipment has laser technology? |
|
Definition
Singlemode 8/125um Fiber. 1-91 |
|
|
Term
What are the five classes of optical fiber cabling? |
|
Definition
Optical multimode 1 (OM1) Optical multimode 2 (OM2) Optical multimode 3 (OM3) Optical singlemode 1 (OS1) Optical singlemode 2 (OS2) 1-91 |
|
|
Term
|
Definition
62.5/125um MM Minimum bandwidth of 200MHz at 850nm and 500MHz at 1300nm. 1-91 |
|
|
Term
|
Definition
50/125um MM Minimum bandwidth of 500 MHz at both 850 and 1300mn |
|
|
Term
|
Definition
50/125 um MM minimum bandwidth of 2000MHz at 850nm and 500MHz at 1300mn. 1-91 |
|
|
Term
|
Definition
Singlemode 8/125um Fiber Specified for 1310 and 1550 nm. 1-91 |
|
|
Term
|
Definition
Singlemode low water-peak, suitable for coarse wavelength division multiplexing specified for 1310, 1383 and 1550 nm. 1-91 |
|
|
Term
How is balanced twisted pair described? |
|
Definition
Based on installed systems (ISO Classes, TIA categories), or individual components(ISO/TIA categories). 1-92 |
|
|
Term
What is the minimum acceptable performance rating for network cabling? |
|
Definition
|
|
Term
What is the minimum recommended performance standard given by most standards? |
|
Definition
Category 5e cabling. 1-92 |
|
|
Term
What is the minimum performance rating for cabling based on BICSI best practices? |
|
Definition
|
|
Term
What is the ISO class/category, and frequency characterization for TIA category 3 cabling? |
|
Definition
Class C/Category 3, 16MHz |
|
|
Term
What is the ISO class/category, and frequency characterization for TIA category 5e cabling? |
|
Definition
Class D/Category 5, 100MHz |
|
|
Term
What is the ISO class/category, and frequency characterization for TIA category 6 cabling? |
|
Definition
Class E/Category 6, 250MHz |
|
|
Term
What is the ISO class/category, and frequency characterization for TIA category 6a cabling? |
|
Definition
Class E/Category 6, 500MHz 1-92 |
|
|
Term
ISO class F/category 7 cabling, which is not recognized by the TIA, has what frequency rating? |
|
Definition
|
|
Term
ISO class F/category 7a cabling, which is not recognized by the TIA, has what frequency rating? |
|
Definition
|
|
Term
|
Definition
The information carrying capacity of a system. 1-95 |
|
|
Term
What is the end-to-end bandwidth of a system related to? |
|
Definition
The respective bandwidths of its component parts. 1-95 |
|
|
Term
What are the essential determinants of the end-to-end bandwidth of an optical fiber system? |
|
Definition
The transmitter The optical fiber 1-95 |
|
|
Term
Why are field measurements not required for optical fiber bandwidth? |
|
Definition
Because installation techniques cannot adversely affect bandwidth. 1-95 |
|
|
Term
|
Definition
The time a transmitter takes to change from low power state (logical 0), to a high state (logical 1) 1-96 |
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Term
When does rise time become significant? |
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Definition
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Term
Why do transmitters have bandwidth limitations? |
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Definition
Because of rise time. 1-96 |
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Term
Why do optical fibers have bandwidth limitations? |
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Definition
Because of dispersion. 1-98 |
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Term
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Definition
The broadening of a light pulse in duration as it travels through the optical fiber. 1-98 |
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Term
Instead of bandwidth, what parameter is usually used to define system capacity in singlemode systems? |
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Definition
Maximum pulse dispersion. 1-98 |
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Term
What is pulse dispersion a function of? |
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Definition
Transmitter spectral width optical fiber construction and length. 1-98 |
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Term
How is dispersion usually expressed? |
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Definition
In pecoseconds of pulse broadening per the product of nanometers of transmitter spectral width and system length. (psec/nm-km) 1-98 |
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Term
Dispersion in singlemode systems is a function of what? |
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Definition
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Term
It is important in singlemode systems that the optical fiber dispersion specification coincides with what? |
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Definition
The operating wavelength range of the transmitter. 1-98 |
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Term
Which is more complex, calculating the dispersion of a singlemode system or calculating and predicting the bandwidth requirements of a multimode system? |
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Definition
calculating and predicting the bandwidth requirements of a multimode system. 1-98 |
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Term
What three effects are combined to predict and calculate the bandwidth requirements of a multimode system? |
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Definition
Transmitter time rise Optical fiber modal dispersion Chromatic dispersion. 1-98 |
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Term
In MM systems, for data rates of 155 Mb/s or less what fiber transmitter is typically used? |
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Definition
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Term
In MM systems, for data rates of 1Gb/s or greater, what fiber transmitter is typically used? |
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Definition
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Term
Optical fiber, with a minimum modal bandwidth of 160 Mhz/km at 850nm supports data rates up 20Mb/s to what distance? |
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Definition
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Term
Optical fiber, with a minimum modal bandwidth of 160 Mhz/km at 850nm supports data rates up 1 Gb/s to what distance? |
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Definition
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Term
Optical fiber, with a minimum modal bandwidth of 500 Mhz/km at 1300nm supports data rates up 155 Mb/s to what distance? |
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Definition
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Term
How is modal bandwidth measured? |
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Definition
With an overfill launch (OFL) condition, which is directly related to LED systems.1-99 |
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Term
What is the bandwidth of a multimode system a function of? |
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Definition
Chromatic dispersion Modal dispersion Length. 1-99 |
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Term
When does chromatic dispersion occur? |
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Definition
when the wider range of wavelengths in each pulse travels at a wider range of individual speeds. This causes the duration of the pulse to increase with distance. 1-98 |
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Term
The amount of chromatic dispersion that occurs depends partly on what? |
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Definition
The center wavelength of the link. 1-98 |
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Term
At what wavelength do most optical fibers have minimal chromatic dispersion? |
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Definition
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Term
What is modal dispersion? |
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Definition
Light travels through all the modes of an optical fiber. The various modes have different lengths. The shorter lengths arrive first, causing the duration of a pulse to broaden as it travels through the optical fiber. 1-99 |
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Term
What are the two major classifications of optical fiber? |
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Definition
Multimode and singlemode. 1-102 |
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Term
When is MM fiber best suited for premise applications? |
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Definition
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 1.102 |
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Term
When is SM fiber best suited for premise applications? |
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Definition
When bandwidth requirements exceed multimodes capability When distance requirements exceed multimodes capability When the application requires singlemode. 1-102 |
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Term
Do optical fibers transmit all wavelengths of light with the same efficiency? |
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Definition
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Term
Attenuation of light signals is much higher for ____than for _____. |
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Definition
Visible light (400nm to 700nm), near infrared light (700 nm to 1600nm). 1-106 |
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Term
The wavelengths areas that are most suitable for optical communications are called what? |
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Definition
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Term
Multimode fiber sold today is typically dual________. Meaning it can operate at two wavelengths. |
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Definition
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Term
Which wavelength has lower attenuation on MM fiber? |
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Definition
1300nm has less attenuation than 850nm. 1-106 |
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Term
50/125um MM laser optimized has a higher bandwidth on which wavelength? |
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Definition
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Term
62.5/125um fiber has a higher bandwidth on which wavelength? |
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Definition
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Term
What is the distance a singlemoide fiber can send traffic unrepeated? |
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Definition
80km (50miles) on state of the art equipment. 1-107 |
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Term
What are the system performance characteristics for singlemode fiber? |
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Definition
Very high bandwidth Very low attenuation good for telephony and CATV applications Ideal for local applications having links over 2km (1.2mi) long satisfies high bandwidth needs in backbone applications up to 80km (50mi). 1-107 |
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Term
What is the typical attenuation of SM fiber? |
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Definition
0.3 to 1.0 dB/km at 1310nm and 1550nm. 1-107 |
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Term
How does the cost of singlemode fiber compare to the cost of MM fiber? |
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Definition
The cost of SM fiber is cheaper but the electronics cost more, which usually means a higher cost in premise systems. 1-107 |
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Term
What is the typical maximum allowable attenuation for SM fiber cable? |
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Definition
outside cable- 0.5dB/km at 1310 and 1550nm inside cable- 1.0dB/km at 1310nm and 1550nm. 1-107 |
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Term
What are the three primary factors that must be considered in optical fiber selection and system design? |
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Definition
Maximum supportable distance Maximum channel attenuation Application requirements. 1-108 |
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Term
How is maximum channel attenuation established? |
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Definition
By comparing the difference between the minimum transmitter output power coupled into the optical fiber and the receiver sensitivity, less any power penalties established. 1-108 |
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Term
What is maximum supportable distance established by? |
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Definition
The application standards. 1-108 |
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Term
What is the formula for determining maximum supportable distances of fiber optic systems? |
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Definition
Channel attenuation < Maximum attenuation Channel attenuation=cable attenuation+connector attenuation+splice attenuation Channel attenuation=[cable attenuation coefficient(dB/km)xlength(km)]+[ # connector pairs x 0.75 dB]+ [# of splices x .3dB] 1-109 |
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Term
What is the maximum allowable attenuation for each wavelength for MM fiber optic cable? |
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Definition
3.5 dB/km at 850nm 1.5 dB/km at 1300nm 1-109 |
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Term
What are two key parameters in optical fiber cabling performance that must be verified for compatibility with proposed electronics? |
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Definition
Attenuation Bandwidth. 1-111 |
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Term
What is recommended to increase testing accuracy on optical fiber systems? |
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Definition
To use the same light source for testing as the source being used in the customer network. 1-111 |
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Term
What is the power loss due to mismatch core size when going from a 62.5um fiber to a 50um fiber? |
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Definition
The loss is -2.2dB. 1-112 |
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Term
What is the power loss due to mismatch core size when going from a 50um fiber to a 62.5um fiber? |
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Definition
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Term
Can the bandwidth of a fiber optic cable be field validated? |
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Definition
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Term
How many bandwidth statements in the 850nm window do most optical fibers that are suitable for medium distance delivery of high speed applications have? |
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Definition
Two bandwidth statements in the 850nm window. One for an LED source over fill launch (OFL) and one for the VCSEL restricted modal launch. 1-112 |
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Term
What are the nine steps used to calculate the optical fiber performance budget? |
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Definition
1. Calculate the system gain 2. Determine the power penalties 3. Calcualte the link loss budget by subtracting the power penalties from the system gain 4. Calculate the optical fiber loss 5. Calculate the connector loss 6. Calculate the splice loss 7. Calculate other component losses (Switches,couplers,bypass, splitters etc.) 8. Calculate the total passive cable system loss by adding the results of steps 4-7 9. Subtract the passive cable system attenuation (result of step 8) from the link loss budget (result of step 3). The result is the system performance margin. If the number is a negative the system will not work. 1-113 |
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Term
What is a link loss budget? |
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Definition
The maximum allowable loss for the end-to-end cable system. 1-115 |
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Term
How is a link loss budget calculated? |
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Definition
calculate the system gain and power penalties. 1-115 |
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Term
In optical fiber systems, how is the passive cable system attenuation determined? |
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Definition
By adding the values for: Optical fiber loss Connector loss Splice loss Other component loss. 1-117 |
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Term
Can different temperature ranges affect the loss of optical fiber cable? |
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Definition
Yes. The can be up to 2dB/km 1.118 |
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Term
When should an additional loss margin (in dB/km) be added to the normalized optical fiber attenuation value? |
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Definition
If the cables specifics are for room temperature only, or if they are based on an average of several optical fibers. 1-118 |
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Term
How should connector loss be estmated when zero to four connector pairs are going to be installed? |
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Definition
By using the maximum loss value. 1-118 |
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Term
How should connector loss be estmated when five or more connector pairs are going to be installed? |
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Definition
By using the typical loss value. 1-119 |
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Term
What is the maximum allowable loss per connection? |
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Definition
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Term
What is the maximum recommended allowable splice loss? |
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Definition
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Term
How is performance verified in optical systems? |
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Definition
Subtract the passive cable system attenuation from the link loss budget. 1-119 |
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Term
What should be done if the perfromance level of an optical system is going to below 0dB? |
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Definition
Make design changes to reduce passive system loss. 1-119 |
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Term
When is insufficient loss a problem? |
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Definition
In systems that use a laser source in premise enviroments (where lengths are short). 1-119 |
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Term
How is the minimum system loss determined? |
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Definition
By subtracting the receiver's dynamic range from the system gain. 1-119 |
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Term
What are two types of optical fiber attenuators? |
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Definition
Fixed attenuators- which cause a specific level of additional loss variable attenuators- can be tuned to a given link. 1-120 |
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Term
When may deviations from OEM recommendations be justified in optical fiber systems? |
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Definition
If the optical fiber selection is made during the cabling design process and before the selection of the active components. If the cabling systems are designed for potential ugrades for which the active elements are not yet available. If there are existing optical fibers that are used whether or not they are the type recommended for the particular end equipment. 1-121 |
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Term
What does SONET stand for? |
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Definition
Synchronous Optical Network 1-122 |
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Term
Where is SONET the standard? |
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Definition
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Term
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Definition
Synchronous digital hierarchy. 1-123 |
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Term
How are SONET and SDH standards set up? |
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Definition
They organize the transmission into 810-byte frames that include bits related to signal routing and destination, as well as the data being transported. 1-122 |
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Term
What does the term synchronous mean? |
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Definition
That all network nodes ideally derive their timimg from a single master clock; however since that's not always practical SONET and SDH can accommodate nodes with different master clocks. 1-122 |
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Term
What is an advantage of SONET and SDH over T and E multiplex formats? |
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Definition
Single channels can be extracted from the signal at any of the data rates. 1-122 |
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Term
What is a key advantage of SDH format? |
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Definition
line transmission format and alarm format are identical between all vendors, which allows for greater equipment choice. 1-122 |
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Term
What is the SDH multiplexing format based around? |
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Definition
That any signal from a lower order multiplex stage can be inserted directly into a higher order signal. 1-122 |
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Term
What may be done prior to the optical transmitter receiving an electrical signal? |
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Definition
Some conditioning or multiplexing of the electrical signal for use on the optical network may be done. 1-123 |
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Term
What changes to the electrical signal are typically done in LAN systems prior to the optical transmitter receiveing the signal? |
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Definition
either no changes, or the electrical signal may be slightly modified to be placed in the proper format. 1-123 |
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Term
What changes to the electrical signal are typically done in channel systems (SONET, DSX) prior to the optical transmitter receiveing the signal? |
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Definition
Oftern the channels are multiplexed prior to being sent to an optical receiver. 1-123 |
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Term
Define Wave division multiplexing (WDM)? |
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Definition
It is an alternate means of multiplexing signals into an optical fiber system. WDM uses multiple electrical signals to separate optical wavelengths at the source that are sent along one optical fiber to its receiver at the other end. WDM uses a series of lenses to refract and direct light pulses into a single optical fiber that carries the combined wavelengths. At teh other end a WDM receiver seperates the wavelengths and converts them back to seperate electrical signals.1-124 |
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Term
Can WDM be used to enable a single optical fiber to both transmit and receive? |
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Definition
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Term
Where is WDM most commonly used? |
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Definition
In long haul, high bandwidth data transmissions. 1-124 |
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