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3D152 Vol. 1 Self-Test
N/A
144
Other
Not Applicable
10/26/2012

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Term
What is modulation?
Definition
The process, or result of the process, of modifying any characteristic of an information signal or carrier signal so that it varies in step with the instantaneous value of another information signal (analog, data, intelligence, or signal).
Term
List one example each of analog-to-digital and digital-to-analog techniques.
Definition
PCM and CVSD.
Term
What are the two basic types of modulation?
Definition

(1) Analog modulation

(2) Digital modulation

Term
What are the three basic types of analog modulation?
Definition

(1) AM

(2) FM

(3) PM

Term
What are the three basic types of analog modulation we use to convert a digital signal?
Definition

(1) ASK

(2) FSK

(3) PSK

Term
What is the simplest form of PSK?
Definition
BPSK
Term
What analog modulation technique is similar to QPSK?
Definition
QAM
Term
Why is DPSK better than PSK?
Definition
Easier to implement and more robust.
Term
What are the four basic types of pulse modulation?
Definition

(1) PAM

(2) PDM

(3) PPM

(4) PCM

Term
How does ADPCM differ from PCM?
Definition
Amplitudes are represented using 4-bit values (rather than the 8 bits used in PCM), and a 32 Kbps data-transfer rate is used (rather than 64 Kbps, as in PCM).
Term
How does ADM differ from DM?
Definition
ADM is a variation of DM where a signal's step size may vary from sample to sample.
Term
What is a simple form of ADM?
Definition
CVSD
Term
What frequencies are present at the output of an AM modulator?
Definition

(1) Carrier frequency

(2) Carrier plus modulating frequency

(3) Carrier minus modulating frequency

Term
What component(s) of an AM modulated sine-wave carries information signals?
Definition
Upper and lower sidebands
Term
What are the two bands of frquencies located below and above the carrier in an AM modulated signal called?
Definition
Lower and upper sidebands
Term
Which sideband of an AM modulated signal is a mirror-image of the modulating signal?
Definition
The lower sideband
Term
How does the bandwidth required to transmit an AM signal compare to that for transmitting the modulating signal by itself?
Definition
The bandwidth required to transmit an AM signal is twice that of the modulating signal itself.
Term
What is the predominant characteristic of SSBSC modulation?
Definition
The transmitted signal is one sideband transmitted without a carrier.
Term
What advantage does SSBSC have over other forms of AM?
Definition
All of the power applied to the transmitter is applied to the sideband carrying intelligence. This provides a 6-to-1 power improvement.
Term
What makes SSBSC more efficient?
Definition
SSBSC uses a reduced bandwidth providing better power efficiency.
Term
In AM, what products are present in the resultant waveform?
Definition
The carrier, the upper sideband (carrier plus modulating frequency), and the lower sideband (carrier minus modulation frequency).
Term
What term do we use for the additional sidebands that cause unwanted bandwidth and distortion in the transmitted AM signal?
Definition
Splatter
Term
What problem is associated with all forms of AM?
Definition
Susceptibility to noise interference.
Term
What determines the amount of deviation of an FM carrier?
Definition
The amplitude of the modulating signal.
Term
How does rate of deviation compare with the frequency of the modulating signal?
Definition
It is directly proportional.
Term
What agency is responsible for determining the maximum amount of deviation?
Definition
FCC
Term
In PM, how is the transmitted signal modulated?
Definition
The carrier's phase is caused to shift at the rate of the modulating signal.
Term
What effect does a change in amplitude have on a PM signal?
Definition
The amount of phase signal shift is proportional to the amplitude of the modulating signal.
Term
What effect does a change in frequency have on a PM signal?
Definition
The rate of phase shift is controlled by the frequency of the modulating frequency.
Term
How is carrier stability maintained in a PM signal?
Definition
With crystal-controlled oscillators.
Term
In BPSK, what amount (degrees) of phase shift of the carrier is used to represent binary 1s and 0s?
Definition
180 degrees
Term
What are the advantages of bi-phase modulation?
Definition
The transmitted signals are insensitive to level variations data can be transmitted at higher speeds, and data can be transmitted over smaller bandwidths.
Term
What are the disadvantages of BPSK?
Definition
BPSK systems require a stable transmission media to guard agains phase ambiguity, along with complex and costly multiplexing equipment.
Term
What are the main advantages of QPSK over BPSK?
Definition
QPSK can use the same signal bandwidth of a BPSK signal and transmit twice the amount of data, and the QPSK signal is not seriously degraded when passing through a nonlinear device.
Term
How is phase ambiguity overcome when PM techniques are used?
Definition
By using pilot tones as a carrier of transmitting timing pulses in the data streams along with the pilot tones.
Term
How many carrier phases does quadriphase modulation have?
Definition
Four
Term
How is information represented in DPSK?
Definition
By changes in phase value from one sample to the next.
Term
What is the main advantage of DPSK?
Definition
It requires a less complex receiver than a basic PSK signal.
Term
What are the three characteristics of a pulse train that can be varied by an information signal to produce a modulated rectangular pulse train?
Definition

(1) Peak voltage

(2) Period

(3) Pulse width or pulse duration

Term
What determines the bandwidth of a pulse train?
Definition
Only the width of the pulses determines the bandwidth of a pulse train, not the frequency.
Term
What characteristic of a puls train does frequency influence?
Definition
Frequency influences the number, or spacing, of the harmonics.
Term
What two modulation processes are required to transmit pulse-modulated signals?
Definition

(1) Pulse modulation

(2) AM or FM

Term
Name five pulse-modulation techniques that can be used to form composite TDM signals.
Definition

(1) PAM

(2) PDM

(3) PPM

(4) PCM

(5) DM

Term
What is the simplest analog pulse-modulation technique?
Definition
PAM
Term
Briefly describe the PAM process.
Definition
A pulse carrier is amplitude modulated to convey information.
Term
What is the sampling rate of a 4-kHz voice channel?
Definition
8 kHz
Term
What determines the amplitude of a PAM pulse?
Definition
The amplitude of the modulating signal at the point of sampling.
Term
What susceptibility does PAM share with AM?
Definition
Noise
Term
By what other two names do we know PDM?
Definition

(1) PWM

(2) PLM

Term
What determines PDM pulse width?
Definition
The amplitude of the modulating signal at the point of sampling.
Term
Why is PDM less affected by noise than PAM?
Definition
Noise pulses are less likely to be of the correct amplitude and time of occurrence to distort the width of the PDM pulses.
Term
What disadvantage is shared by both PAM and PDM?
Definition
Both are proportionately affected by any distortion in pulse width or amplitude of the modulating signal.
Term
How does PPM overcome the disadvantage of distortion experienced in PAM and PDM?
Definition
By maintaining pulses at a constant width and amplitude.
Term
What is a disadvantage of PPM?
Definition
PPM requires a larger bandwidth.
Term
What determines the time position of a PPM pulse?
Definition
The amplitude of the modulating signal at the time of sampling.
Term
Give two reasons for converting analog signals to digital signals before transmission.
Definition

(1) Digital signals can be regenerated

(2) Digital signals can be readily encrypted

Term
What is the principal disadvantage of converting analog signals to digital signals before transmission?
Definition
Quantizing noise is produced when the digital signals are converted back to their analog form
Term
Of PAM, PDM, PPM, and PCM, which technique is least affected by noise?
Definition
PCM
Term
Briefly describe the PCM process.
Definition
First, the analog signal is passed through a band-limiting filter and the resulting pulses are amplitude sampled. Each pulse is assigned a binary code word corresponding to its amplitude. The resulting digital signals are then modulated using AM, FM, PSK, and so forth..., and transmitted as a series of pulses and empty intervals.
Term
What is quantizing noise?
Definition
Quantizing noise is the distortion produced during quantization of PAM signals where the PAM pulses are "rounded-off" to the nearest allowable assigned values differing from their true amplitude values.
Term
How many code bits are required to provide 16 quantized steps?
Definition
Four
Term
Which quantizing method produces less quantizing noise?
Definition
Nonuniform quantizing produces less noise than uniform quantizing.
Term
How can we increase the capability for regenerating quantized pulses?
Definition
By keeping the quantized pulses at a constant duration and amplitude (encoding).
Term
Explain the purpose of companding.
Definition
To reduce the dynamic range of a voice signal by compressing the high-amplitude portions of the signal before transmission.
Term
Why is PCM less susceptible to noise than PAM or PDM?
Definition
To disturb PCM, noise must insert a pulse or obscure a pulse, not merely change its height or duration.
Term
How is ADPCM different from PCM?
Definition
It generates a 4-bitt word per PAM sample instead of an 8-bit word.
Term
Name the two methods of multiplexing.
Definition
Frequency and time division.
Term
Describe the difference between the two methods of multiplexing.
Definition
Frequency division multiplexing is used in the transmission of analog signals and the signals are divided among the frequency bandwidth. Time division multiplexing is used in the transmission of digital signals and the signals are allocated certain time slots along the transmission line.
Term
What type of signal(s) is the T1 able to transmit?
Definition
Analog, digital, and video.
Term
What are some of the advantages of T1 multiplexing?
Definition
Simplicity
Term
What method of multiplexing does T1 use?
Definition
Time division
Term
The technology of WDM is considered a method of improving what?
Definition
The efficiency of fiber through condensing, or multiplexing, the transmitted channels.
Term
How does WDM work?
Definition
In WDM, each device connected to the WDM is given a different wavelength of light or differrent color in the spectrum that allows the devices to pass together across the fiber within the same area of the light spectrum.
Term
What are the WDM technologies?
Definition
WDM, CWDM, and DWDM.
Term
What does CWDM use to reduce cost?
Definition
CWDM's use uncooled lasers with a relaxed tolerance of +/- 3 nm.
Term
What three characteristics must the DWDM optical multiplexer have?
Definition
First, it must be very stable over time and temperature; second, it needs to have a relatively flat passband or region of frequencies; and third, it must reject adjacent optical channels so that they do not interfere.
Term
Define the term "bit."
Definition
A unit of information based on two symbols, states, or conditions.
Term
What unit of measurement is normally used in data systems to express signaling speed for equipment?
Definition
b/s
Term
Define the term "baud."
Definition
The unit of modulation rate of the shortest unit interval.
Term
Briefly explain the difference between baud and bit.
Definition
Baud is an expression of time (duration) while bit carries no suggestion of time.
Term
 What is the difference between "overflow" and "underflow" in relation to bit count integrity?
Definition
Overflow is when more bits are received than expected. Underflow is when fewer bits are received than expected.
Term
What are the three terms we use to describe synchronization methods used in digital signaling?
Definition

(1) Synchronous

(2) Asynchronous

(3) Isochronous

Term
How many synchronizing pulses are needed in synchronous operation?
Definition
None
Term
Briefly explain the principle of synchronous operation.
Definition
In synchronous operation, the receiving device is adjusted automatically to the speed of the transmitting device by comparing the speed of the incoming signal with the time base of the receiving device.
Term
What constitutes an asynchronous signal?
Definition
Any signal that contains synchronizing bits within its signal stream.
Term
Briefly explain the principles of asynchronous operation.
Definition
In asynchronous operation, a receiving device is started with a start bit and runs only until it receives one character, then a stop bit causes it to stop and wait on the next start bit.
Term
How does asynchronous synchronization affect transmission speed?
Definition
It slows transmission speed.
Term
What is an isochronous signal?
Definition
A signal where all bits are of equal duration.
Term
Of the synchronization terms synchronous, asynchronous, or isochronous, which is normally used with channel-packing systems to indicate the utilization of internal timing?
Definition
Isochronous
Term
Name the two actors that determine when a digital transition should occur.
Definition

(1) The bit rate of the signal.

(2) The signal's format.

Term
Define NRZ-L.
Definition
Information is contained in the level. One level is transmitted for a mark and another for a space.
Term
What is a BPV?
Definition
When two consecutive mark (1) signals occur with the same polarity.
Term
How does the B8ZS signal format correct ones density problems?
Definition
By intentionally inserting BPVs into the signal to break up long strings of zeros.
Term
Which type of framing would be used for a T1 carrying video traffic?
Definition
ESF
Term
Which framing sequence is used for synchronization with incoming data?
Definition
D4
Term
What are the three types of communications signals that are the functions to control and process analog calls?
Definition

(1) Control signals

(2) Informational signals

(3) Supervisory signals

Term
What are the two methods of address signaling?
Definition

(1) Pulse dialing

(2) Tone dialing

Term
Call waiting is what type of communication signal?
Definition
Information signaling
Term
What is the purpose of supervisory signaling?
Definition
Monitor the status of a line or circuit to determine its state.
Term
What are the two digital signaling methods to transmit supervisory signaling?
Definition

(1) CAS

(2) CCS

Term
How does CAS signaling convey signaling information?
Definition
Through bit robbing.
Term
How does CCS convey signaling information?
Definition
It uses a separate network channel to transfer supervisory signaling information in an out-of-band fashion and multiplexed with the digitized voice signals.
Term
What are the three CCS signaling modes?
Definition

(1) Associated mode

(2) Nonassociated mode

(3) Quasi-associated mode

Term
Define noise.
Definition
Unintellible electrical disturbances in or to an electrical system, which may cause the desired signals carrying intelligence to be masked or distorted.
Term
What is white noise?
Definition
A mixture of all frequencies in the spectrum of interest that, if loud enough, can completely mask the desired intelligence frequencies.
Term
What is the usual circuit input impedance for a transmission line?
Definition
600 Ohms
Term
What causes impulse noise?
Definition
Disturbances that have abrupt amplitudes of short duration.
Term
When is the best time to take measurements of impulse noise?
Definition
During periods of peak system activity.
Term
Define the term, "clocking."
Definition
"The rate of running" or "to keep approximately standard time."
Term
What is a station clock? What can a station clock minimize?
Definition
A clock that controls some or all of the equipment in the station that require local time control; the effect of most of these impairments.
Term
What are two types of station clocks?
Definition

(1) Master

(2) Slave

Term
What is the master station clock?
Definition
A highly stable cesium beam or GPS timing signal that is tied into the primary communications equipment.
Term
How does a slave clock get its timing?
Definition
It locks onto an incoming data stream from a stable source.
Term
How does synchronization distinguish positions in the data bit stream?
Definition
Since only 1s and 0s are transmitted, the equipment uses patterns of frame bits called framing formats.
Term
What three factors can affect the line quality of a long distance transmission line?
Definition
Attenuation distortions, delays, and noise.
Term
How can the capacitane of a transmission line be varied?
Definition
By varying the type of insulation, size of wire, and spacing between wires.
Term
Define electronic attack.
Definition
The component of EW involving the use of electromagnetic, directed energy, or anti-radiation weapons to attack personnel, facilities, or equipment with the intent of degrading, neutralizing, or destroying enemy combat capability.
Term
What is an example of electronic attack?
Definition
The deployment of high-speed anti-radiation missiles to disable an area defense radar site to allow for further penetration of our attacking forces.
Term
Protecting people, facilities, and equipment from electronic is known as?
Definition
Electronic protection
Term
What are two examples of EP for a radar system?
Definition
Active decoys to draw missiles off target and the varying of pulse repetition frequency on a radar set.
Term
What is ES?
Definition
The means of putting a picture together for battlefield commanders to allow them to have an accurate picture of the use of electromagnetic spectrum within their area of responsiblity.
Term
What are two items used to provide ES capability?
Definition
Radar warning receivers and intelligence platforms.
Term
State the purpose of a multimeter.
Definition
It allows measurement of voltage, current, and resistance.
Term
How is a multimeter connected in a circuit to measure microamperes?
Definition
In series.
Term
How is a multimeter used as a voltmeter in a circuit?
Definition
In parallel.
Term
When using an ohmmeter to take a resistance reading, what preliminary precaution should you take?
Definition
Make sure all power is disconnected from the circuit being tested.
Term
What kind of cable faults can the time domain reflectometer locate?
Definition
Splices, water in the cable, split pairs, and discontinuities or faults.
Term
Describe the time domain reflectometer's operating principle.
Definition
It is similar to that of radar. A pulse from the time domain reflectometer is applied to a cable under test. Any impedance changes in the cable cause a portion of that voltage or energy to be reflected back to the cable input.
Term
Explain how cable fault information appears on the time domain reflectometer's CRT.
Definition
The CRT displays the pulse's progression from application to the cable on the left-hand side of the display to it return at the right. From the display, one can determine the distance down the cable to where the fault is and the type and severity of the fault.
Term
Explain the purpose of the impedance selector buttons.
Definition
Used to select the input/output impedance of the time domain reflectometer. You can select 50, 75, 95, and 125 ohm impedances.
Term
Describe how you would connect a cable under test to the time domain reflectometer.
Definition
Do not connect live circuit cables to the input of the time domain reflectometer. Connect the cable under test to the cable connector on the front panel of the time domain reflectometer.
Term
What do deflections ("pips") indicate to the time domain reflectometer user?
Definition
Upward deflections ("pips") indicate high impedance mismatches or opens and downward deflections ("pips") indicate shorts or low impedance mismatches.
Term
Describe the two operating modes used by the TD-9930.
Definition

(1) REAL-TIME operation, reflections are amplified and displayed directly on the CRT for examination.

(2) In the AVG (AVERAGE) mode, the amplified signals are averaged to reduce noise, then stored as digital data.

Term
What are the four tests and measurements performed by the optical time domain reflectometer?
Definition
Cable acceptance testing; cable installation; end-to-end tests; fault location.
Term
What is the power that is reflected back towards the optical source?
Definition
Backscatter
Term
How is the signal loss represented in on optical time domain reflectometer display?
Definition
The dB drop in backscatter between the two reflections is the signal loss within the fiber.
Term
What index factor is the TD-9930 already programmed to accept?
Definition
INDEX = 1.470
Term
What are the two major sections of a BERT set that create and receive the test pattern?
Definition
The data code generator (transmitter) and code detector (receiver).
Term
What type of test pattern does the data code generator produce?
Definition
Pseudo-random
Term
Name two common signal codes that are used with BERT sets.
Definition
AMI and B8ZS
Term
Name two framing formats used with BERT sets.
Definition
D4 and ESF
Term
What does 63,511, and 2047 in a test pattern identify?
Definition
The total number of bits in the test pattern.
Term
Explain the purpose of a breakout box.
Definition
To monitor and access all 25 conductors of EIA RS-232 and ITU V.24 interfaces between data modems and terminals.
Term
What is the purpose of the 24 miniature ON/OFF switches on a breakout box?
Definition
To allow all interface conductors (except frame ground pin 1) to be interrupted individually for isolated testing and observation.
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