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Question Pool
Extra Class - Element 4
Subelement E1 - Commission's Rules
Group E1A - Operating Standards:
frequency privileges; emission standards; automatic message
forwarding; frequency sharing; stations aboard ships or aircraft
E1A01 (D)
When using a transceiver that displays
the carrier frequency of phone signals, which of the following
displayed frequencies represents the highest frequency at which a
properly adjusted USB emission will be totally within the band?
·
A. The exact upper band edge
·
B. 300 Hz below the upper band edge
·
C. 1 kHz below the upper band edge
·
D. 3 kHz below the upper band edge
E1A02 (D)
When using a transceiver that displays
the carrier frequency of phone signals, which of the following
displayed frequencies represents the lowest frequency at which a
properly adjusted LSB emission will be totally within the band?
·
A. The exact lower band edge
·
B. 300 Hz above the lower band edge
·
C. 1 kHz above the lower band edge
·
D. 3 kHz above the lower band edge
E1A03 (C)
With your transceiver displaying the
carrier frequency of phone signals, you hear a DX station's CQ on
14.349 MHz USB. Is it legal to return the call using upper sideband on
the same frequency?
·
A. Yes, because the DX station initiated the
contact
·
B. Yes, because the displayed frequency is
within the 20 meter band
·
C. No, my sidebands will extend beyond the band
edge
·
D. No, USA stations are not permitted to use
phone emissions above 14.340 MHz
E1A04 (C)
With your transceiver displaying the
carrier frequency of phone signals, you hear a DX station calling CQ
on 3.601 MHz LSB. Is it legal to return the call using lower sideband
on the same frequency?
·
A. Yes, because the DX station initiated the
contact
·
B. Yes, because the displayed frequency is
within the 75 meter phone band segment
·
C. No, my sidebands will extend beyond the edge
of the phone band segment
·
D. No, USA stations are not permitted to use
phone emissions below 3.610 MHz
E1A05 (C)
What is the maximum power output
permitted on the 60 meter band?
·
A. 50 watts PEP effective radiated power
relative to an isotropic radiator
·
B. 50 watts PEP effective radiated power
relative to a dipole
·
C. 100 watts PEP effective radiated power
relative to the gain of a half-wave dipole
·
D. 100 watts PEP effective radiated power
relative to an isotropic radiator
E1A06 (B)
Which of the following describes the
rules for operation on the 60 meter band?
·
A. Working DX is not permitted
·
B. Operation is restricted to specific emission
types and specific channels
·
C. Operation is restricted to LSB
·
D. All of these choices are correct
E1A07 (D)
What is the only amateur band where
transmission on specific channels rather than a range of frequencies
is permitted?
·
A. 12 meter band
·
B. 17 meter band
·
C. 30 meter band
·
D. 60 meter band
E1A08 (B)
If a station in a message forwarding
system inadvertently forwards a message that is in violation of FCC
rules, who is primarily accountable for the rules violation?
·
A. The control operator of the packet bulletin
board station
·
B. The control operator of the originating
station
·
C. The control operators of all the stations in
the system
·
D. The control operators of all the stations in
the system not authenticating the source from which they accept
communications
E1A09 (A)
What is the first action you should take
if your digital message forwarding station inadvertently forwards a
communication that violates FCC rules?
·
A. Discontinue forwarding the communication as
soon as you become aware of it
·
B. Notify the originating station that the
communication does not comply with FCC rules
·
C. Notify the nearest FCC Field Engineer's
office
·
D. Discontinue forwarding all messages
E1A10 (A)
If an amateur station is installed
aboard a ship or aircraft, what condition must be met before the
station is operated?
·
A. Its operation must be approved by the master
of the ship or the pilot in command of the aircraft
·
B. The amateur station operator must agree to
not transmit when the main ship or aircraft radios are in use
·
C. It must have a power supply that is
completely independent of the main ship or aircraft power supply
·
D. Its operator must have an FCC Marine or
Aircraft endorsement on his or her amateur license
E1A11 (B)
What authorization or licensing is
required when operating an amateur station aboard a US-registered
vessel in international waters?
·
A. Any amateur license with an FCC Marine or
Aircraft endorsement
·
B. Any FCC-issued amateur license or a
reciprocal permit for an alien amateur licensee
·
C. Only General class or higher amateur
licenses
·
D. An unrestricted Radiotelephone Operator
Permit
E1A12 (C)
With your transceiver displaying the
carrier frequency of CW signals, you hear a DX station's CQ on 3.500
MHz. Is it legal to return the call using CW on the same frequency?
·
A. Yes, the DX station initiated the contact
·
B. Yes, the displayed frequency is within the
80 meter CW band segment
·
C. No, sidebands from the CW signal will be out
of the band.
·
D. No, USA stations are not permitted to use CW
emissions below 3.525 MHz
E1A13 (B)
Who must be in physical control of the
station apparatus of an amateur station aboard any vessel or craft
that is documented or registered in the United States?
·
A. Only a person with an FCC Marine Radio
·
B. Any person holding an FCC-issued amateur
license or who is authorized for alien reciprocal operation
·
C. Only a person named in an amateur station
license grant
·
D. Any person named in an amateur station
license grant or a person holding an unrestricted Radiotelephone
Operator Permit
Group E1B - Station restrictions and
special operations: restrictions on station location; general
operating restrictions, spurious emissions, control operator
reimbursement; antenna structure restrictions; RACES operations
E1B01 (D)
Which of the following constitutes a
spurious emission?
·
A. An amateur station transmission made at
random without the proper call sign identification
·
B. A signal transmitted to prevent its
detection by any station other than the intended recipient
·
C. Any transmitted bogus signal that interferes
with another licensed radio station
·
D. An emission outside its necessary bandwidth
that can be reduced or eliminated without affecting the information
transmitted
E1B02 (D)
Which of the following factors might
cause the physical location of an amateur station apparatus or antenna
structure to be restricted?
·
A. The location is near an area of political
conflict
·
B. The location is of geographical or
horticultural importance
·
C. The location is in an ITU zone designated
for coordination with one or more foreign governments
·
D. The location is of environmental importance
or significant in American history, architecture, or culture
E1B03 (A)
Within what distance must an amateur
station protect an FCC monitoring facility from harmful interference?
·
A. 1 mile
·
B. 3 miles
·
C. 10 miles
·
D. 30 miles
E1B04 (C)
What must be done before placing an
amateur station within an officially designated wilderness area or
wildlife preserve, or an area listed in the National Register of
Historical Places?
·
A. A proposal must be submitted to the National
Park Service
·
B. A letter of intent must be filed with the
National Audubon Society
·
C. An Environmental Assessment must be
submitted to the FCC
·
D. A form FSD-15 must be submitted to the
Department of the Interior
E1B05 (D)
What is the maximum bandwidth for a data
emission on 60 meters?
·
A. 60 Hz
·
B. 170 Hz
·
C. 1.5 kHz
·
D. 2.8 kHz
E1B06 (A)
Which of the following additional rules
apply if you are installing an amateur station antenna at a site at or
near a public use airport?
·
A. You may have to notify the Federal Aviation
Administration and register it with the FCC as required by Part 17 of
FCC rules
·
B. No special rules apply if your antenna
structure will be less than 300 feet in height
·
C. You must file an Environmental Impact
Statement with the EPA before construction begins
·
D. You must obtain a construction permit from
the airport zoning authority
E1B07 (B)
Where must the carrier frequency of a CW
signal be set to comply with FCC rules for 60 meter operation?
·
A. At the lowest frequency of the channel
·
B. At the center frequency of the channel
·
C. At the highest frequency of the channel
·
D. On any frequency where the signal's
sidebands are within the channel
E1B08 (D)
What limitations may the FCC place on an
amateur station if its signal causes interference to domestic
broadcast reception, assuming that the receiver(s) involved are of
good engineering design?
·
A. The amateur station must cease operation
·
B. The amateur station must cease operation on
all frequencies below 30 MHz
·
C. The amateur station must cease operation on
all frequencies above 30 MHz
·
D. The amateur station must avoid transmitting
during certain hours on frequencies that cause the interference
E1B09 (C)
Which amateur stations may be operated
in RACES?
·
A. Only those club stations licensed to Amateur
Extra class operators
·
B. Any FCC-licensed amateur station except a
Technician class operator's station
·
C. Any FCC-licensed amateur station certified
by the responsible civil defense organization for the area served
·
D. Any FCC-licensed amateur station
participating in the Military Affiliate Radio System (MARS)
E1B10 (A)
What frequencies are authorized to an
amateur station participating in RACES?
·
A. All amateur service frequencies authorized
to the control operator
·
B. Specific segments in the amateur service MF,
HF, VHF and UHF bands
·
C. Specific local government channels
·
D. Military Affiliate Radio System (MARS)
channels
E1B11 (A)
What is the permitted mean power of any
spurious emission relative to the mean power of the fundamental
emission from a station transmitter or external RF amplifier installed
after January 1, 2003, and transmitting on a frequency below 30 MHZ?
·
A. At least 43 dB below
·
B. At least 53 dB below
·
C. At least 63 dB below
·
D. At least 73 dB below
E1B12 (B)
What is the highest modulation index
permitted at the highest modulation frequency for angle modulation?
·
A. .5
·
B. 1.0
·
C. 2.0
·
D. 3.0
Group E1C - Station control:
definitions and restrictions pertaining to local, automatic and
remote control operation; control operator responsibilities for
remote and automatically controlled stations
E1C01 (D)
What is a remotely controlled station?
·
A. A station operated away from its regular
home location
·
B. A station controlled by someone other than
the licensee
·
C. A station operating under automatic control
·
D. A station controlled indirectly through a
control link
E1C02 (A)
What is meant by automatic control of a
station?
·
A. The use of devices and procedures for
control so that the control operator does not have to be present at a
control point
·
B. A station operating with its output power
controlled automatically
·
C. Remotely controlling a station's antenna
pattern through a directional control link
·
D. The use of a control link between a control
point and a locally controlled station
E1C03 (B)
How do the control operator
responsibilities of a station under automatic control differ from one
under local control?
·
A. Under local control there is no control
operator
·
B. Under automatic control the control operator
is not required to be present at the control point
·
C. Under automatic control there is no control
operator
·
D. Under local control a control operator is
not required to be present at a control point
E1C04 (B)
When may an automatically controlled
station retransmit third party communications?
·
A. Never
·
B. Only when transmitting RTTY or data
emissions
·
C. When specifically agreed upon by the sending
and receiving stations
·
D. When approved by the National
Telecommunication and Information Administration
E1C05 (A)
When may an automatically controlled
station originate third party communications?
·
A. Never
·
B. Only when transmitting an RTTY or data
emissions
·
C. When specifically agreed upon by the sending
and receiving stations
·
D. When approved by the National
Telecommunication and Information Administration
E1C06 (C)
Which of the following statements
concerning remotely controlled amateur stations is true?
·
A. Only Extra Class operators may be the
control operator of a remote station
·
B. A control operator need not be present at
the control point
·
C. A control operator must be present at the
control point
·
D. Repeater and auxiliary stations may not be
remotely controlled
E1C07 (C)
What is meant by local control?
·
A. Controlling a station through a local
auxiliary link
·
B. Automatically manipulating local station
controls
·
C. Direct manipulation of the transmitter by a
control operator
·
D. Controlling a repeater using a portable
handheld transceiver
E1C08 (B)
What is the maximum permissible duration
of a remotely controlled station's transmissions if its control link
malfunctions?
·
A. 30 seconds
·
B. 3 minutes
·
C. 5 minutes
·
D. 10 minutes
E1C09 (D)
Which of these frequencies are available
for an automatically controlled repeater operating below 30 MHz?
·
A. 18.110 - 18.168 MHz
·
B. 24.940 - 24.990 MHz
·
C. 10.100 - 10.150 MHz
·
D. 29.500 - 29.700 MHz
E1C10 (B)
What types of amateur stations may
automatically retransmit the radio signals of other amateur stations?
·
A. Only beacon, repeater or space stations
·
B. Only auxiliary, repeater or space stations
·
C. Only earth stations, repeater stations or
model craft
·
D. Only auxiliary, beacon or space stations
Group E1D - Amateur Satellite
service: definitions and purpose; license requirements for space
stations; available frequencies and bands; telecommand and
telemetry operations; restrictions, and special provisions;
notification requirements
E1D01 (A)
What is the definition of the term
telemetry?
·
A. One-way transmission of measurements at a
distance from the measuring instrument
·
B. Two-way radiotelephone transmissions in
excess of 1000 feet
·
C. Two-way single channel transmissions of data
·
D. One-way transmission that initiates,
modifies, or terminates the functions of a device at a distance
E1D02 (C)
What is the amateur satellite service?
·
A. A radio navigation service using satellites
for the purpose of self training, intercommunication and technical
studies carried out by amateurs
·
B. A spacecraft launching service for
amateur-built satellites
·
C. A radio communications service using amateur
radio stations on satellites
·
D. A radio communications service using
stations on Earth satellites for public service broadcast
E1D03 (B)
What is a telecommand station in the
amateur satellite service?
·
A. An amateur station located on the Earth's
surface for communications with other Earth stations by means of Earth
satellites
·
B. An amateur station that transmits
communications to initiate, modify or terminate functions of a space
station
·
C. An amateur station located more than 50 km
above the Earth's surface
·
D. An amateur station that transmits telemetry
consisting of measurements of upper atmosphere data from space
E1D04 (A)
What is an Earth station in the amateur
satellite service?
·
A. An amateur station within 50 km of the
Earth's surface intended for communications with amateur stations by
means of objects in space
·
B. An amateur station that is not able to
communicate using amateur satellites
·
C. An amateur station that transmits telemetry
consisting of measurement of upper atmosphere data from space
·
D. Any amateur station on the surface of the
Earth
E1D05 (C)
What class of licensee is authorized to
be the control operator of a space station?
·
A. All except Technician Class
·
B. Only General, Advanced or Amateur Extra
Class
·
C. All classes
·
D. Only Amateur Extra Class
E1D06 (A)
Which of the following special
provisions must a space station incorporate in order to comply with
space station requirements?
·
A. The space station must be capable of
terminating transmissions by telecommand when directed by the FCC
·
B. The space station must cease all
transmissions after 5 years
·
C. The space station must be capable of
changing its orbit whenever such a change is ordered by NASA
·
D. All of these choices are correct
E1D07 (A)
Which amateur service HF bands have
frequencies authorized to space stations?
·
A. Only 40m, 20m, 17m, 15m, 12m and 10m
·
B. Only 40m, 20m, 17m, 15m and 10m bands
·
C. 40m, 30m, 20m, 15m, 12m and 10m bands
·
D. All HF bands
E1D08 (D)
Which VHF amateur service bands have
frequencies available for space stations?
·
A. 6 meters and 2 meters
·
B. 6 meters, 2 meters, and 1.25 meters
·
C. 2 meters and 1.25 meters
·
D. 2 meters
E1D10 (B)
Which amateur stations are eligible to
be telecommand stations?
·
A. Any amateur station designated by NASA
·
B. Any amateur station so designated by the
space station licensee, subject to the privileges of the class of
operator license held by the control operator
·
C. Any amateur station so designated by the ITU
·
D. All of these choices are correct
E1D11 (D)
Which amateur stations are eligible to
operate as Earth stations?
·
A. Any amateur station whose licensee has filed
a pre-space notification with the FCC's International Bureau
·
B. Only those of General, Advanced or Amateur
Extra Class operators
·
C. Only those of Amateur Extra Class operators
·
D. Any amateur station, subject to the
privileges of the class of operator license held by the control
operator
Group E1E - Volunteer examiner
program: definitions, qualifications, preparation and
administration of exams; accreditation; question pools;
documentation requirements
E1E01 (D)
What is the minimum number of qualified
VEs required to administer an Element 4 amateur operator license
examination?
·
A. 5
·
B. 2
·
C. 4
·
D. 3
E1E02 (C)
Where are the questions for all written
US amateur license examinations listed?
·
A. In FCC Part 97
·
B. In a question pool maintained by the FCC
·
C. In a question pool maintained by all the
VECs
·
D. In the appropriate FCC Report and Order
E1E03 (C)
What is a Volunteer Examiner
Coordinator?
·
A. A person who has volunteered to administer
amateur operator license examinations
·
B. A person who has volunteered to prepare
amateur operator license examinations
·
C. An organization that has entered into an
agreement with the FCC to coordinate amateur operator license
examinations
·
D. The person who has entered into an agreement
with the FCC to be the VE session manager
E1E04 (D)
Which of the following best describes
the Volunteer Examiner accreditation process?
·
A. Each General, Advanced and Amateur Extra
Class operator is automatically accredited as a VE when the license is
granted
·
B. The amateur operator applying must pass a VE
examination administered by the FCC Enforcement Bureau
·
C. The prospective VE obtains accreditation
from the FCC
·
D. The procedure by which a VEC confirms that
the VE applicant meets FCC requirements to serve as an examiner
E1E05 (B)
What is the minimum passing score on
amateur operator license examinations?
·
A. Minimum passing score of 70%
·
B. Minimum passing score of 74%
·
C. Minimum passing score of 80%
·
D. Minimum passing score of 77%
E1E06 (C)
Who is responsible for the proper
conduct and necessary supervision during an amateur operator license
examination session?
·
A. The VEC coordinating the session
·
B. The FCC
·
C. Each administering VE
·
D. The VE session manager
E1E07 (B)
What should a VE do if a candidate fails
to comply with the examiner's instructions during an amateur operator
license examination?
·
A. Warn the candidate that continued failure to
comply will result in termination of the examination
·
B. Immediately terminate the candidate's
examination
·
C. Allow the candidate to complete the
examination, but invalidate the results
·
D. Immediately terminate everyones examination
and close the session
E1E08 (C)
To which of the following examinees may
a VE not administer an examination?
·
A. Employees of the VE
·
B. Friends of the VE
·
C. Relatives of the VE as listed in the FCC
rules
·
D. All of these choices are correct
E1E09 (A)
What may be the penalty for a VE who
fraudulently administers or certifies an examination?
·
A. Revocation of the VE's amateur station
license grant and the suspension of the VE's amateur operator license
grant
·
B. A fine of up to $1000 per occurrence
·
C. A sentence of up to one year in prison
·
D. All of these choices are correct
E1E10 (C)
What must the administering VEs do after
the administration of a successful examination for an amateur operator
license?
·
A. They must collect and send the documents to
the NCVEC for grading
·
B. They must collect and submit the documents
to the coordinating VEC for grading
·
C. They must submit the application document to
the coordinating VEC according to the coordinating VEC instructions
·
D. They must collect and send the documents to
the FCC according to instructions
E1E11 (B)
What must the VE team do if an examinee
scores a passing grade on all examination elements needed for an
upgrade or new license?
·
A. Photocopy all examination documents and
forward them to the FCC for processing
·
B. Three VEs must certify that the examinee is
qualified for the license grant and that they have complied with the
administering VE requirements
·
C. Issue the examinee the new or upgrade
license
·
D. All these choices are correct
E1E12 (A)
What must the VE team do with the
application form if the examinee does not pass the exam?
·
A. Return the application document to the
examinee
·
B. Maintain the application form with the VEC's
records
·
C. Send the application form to the FCC and
inform the FCC of the grade
·
D. Destroy the application form
E1E13 (A)
What are the consequences of failing to
appear for re-administration of an examination when so directed by the
FCC?
·
A. The licensee's license will be cancelled
·
B. The person may be fined or imprisoned
·
C. The licensee is disqualified from any future
examination for an amateur operator license grant
·
D. All these choices are correct
E1E14 (A)
For which types of out-of-pocket
expenses do the Part 97 rules state that VEs and VECs may be
reimbursed?
·
A. Preparing, processing, administering and
coordinating an examination for an amateur radio license
·
B. Teaching an amateur operator license
examination preparation course
·
C. No expenses are authorized for reimbursement
·
D. Providing amateur operator license
examination preparation training materials
Group E1F - Miscellaneous rules: external RF power amplifiers; national quiet zone; business communications; compensated communications; spread spectrum; auxiliary stations; reciprocal operating privileges; IARP and CEPT licenses; third party communications with foreign countries; special temporary authority
E1F01 (B)
On what frequencies are spread spectrum
transmissions permitted?
·
A. Only on amateur frequencies above 50 MHz
·
B. Only on amateur frequencies above 222 MHz
·
C. Only on amateur frequencies above 420 MHz
·
D. Only on amateur frequencies above 144 MHz
E1F02 (A)
Which of the following operating
arrangements allows an FCC-licensed US citizen to operate in many
European countries, and alien amateurs from many European countries to
operate in the US?
·
A. CEPT agreement
·
B. IARP agreement
·
C. ITU reciprocal license
·
D. All of these choices are correct
E1F03 (A)
Under what circumstances may a dealer
sell an external RF power amplifier capable of operation below 144 MHz
if it has not been granted FCC certification?
·
A. It was purchased in used condition from an
amateur operator and is sold to another amateur operator for use at
that operator's station
·
B. The equipment dealer assembled it from a kit
·
C. It was imported from a manufacturer in a
country that does not require certification of RF power amplifiers
·
D. It was imported from a manufacturer in
another country, and it was certificated by that country's government
E1F04 (A)
Which of the following geographic
descriptions approximately describes "Line A"?
·
A. A line roughly parallel to and south of the
US-Canadian border
·
B. A line roughly parallel to and west of the
US Atlantic coastline
·
C. A line roughly parallel to and north of the
US-Mexican border and Gulf coastline
·
D. A line roughly parallel to and east of the
US Pacific coastline
E1F05 (D)
Amateur stations may not transmit in
which of the following frequency segments if they are located in the
contiguous 48 states and north of Line A?
·
A. 440 - 450 MHz
·
B. 53 - 54 MHz
·
C. 222 - 223 MHz
·
D. 420 - 430 MHz
E1F06 (C)
What is the National Radio Quiet Zone?
·
A. An area in Puerto Rico surrounding the
Aricebo Radio Telescope
·
B. An area in New Mexico surrounding the White
Sands Test Area
·
C. An area surrounding the National Radio
Astronomy Observatory
·
D. An area in Florida surrounding Cape
Canaveral
E1F07 (D)
When may an amateur station send a
message to a business?
·
A. When the total money involved does not
exceed $25
·
B. When the control operator is employed by the
FCC or another government agency
·
C. When transmitting international third-party
communications
·
D. When neither the amateur nor his or her
employer has a pecuniary interest in the communications
E1F08 (A)
Which of the following types of amateur
station communications are prohibited?
·
A. Communications transmitted for hire or
material compensation, except as otherwise provided in the rules
·
B. Communications that have a political
content, except as allowed by the Fairness Doctrine
·
C. Communications that have a religious content
·
D. Communications in a language other than
English
E1F09 (D)
Which of the following conditions apply
when transmitting spread spectrum emission?
·
A. A station transmitting SS emission must not
cause harmful interference to other stations employing other
authorized emissions
·
B. The transmitting station must be in an area
regulated by the FCC or in a country that permits SS emissions
·
C. The transmission must not be used to obscure
the meaning of any communication
·
D. All of these choices are correct
E1F10 (C)
What is the maximum transmitter power
for an amateur station transmitting spread spectrum communications?
·
A. 1 W
·
B. 1.5 W
·
C. 10 W
·
D. 1.5 kW
E1F11 (D)
Which of the following best describes
one of the standards that must be met by an external RF power
amplifier if it is to qualify for a grant of FCC certification?
·
A. It must produce full legal output when
driven by not more than 5 watts of mean RF input power
·
B. It must be capable of external RF switching
between its input and output networks
·
C. It must exhibit a gain of 0 dB or less over
its full output range
·
D. It must satisfy the FCC's spurious emission
standards when operated at the lesser of 1500 watts, or its full
output power
E1F12 (B)
Who may be the control operator of an
auxiliary station?
·
A. Any licensed amateur operator
·
B. Only Technician, General, Advanced or
Amateur Extra Class operators
·
C. Only General, Advanced or Amateur Extra
Class operators
·
D. Only Amateur Extra Class operators
E1F13 (C)
What types of communications may be
transmitted to amateur stations in foreign countries?
·
A. Business-related messages for non-profit
organizations
·
B. Messages intended for connection to users of
the maritime satellite service
·
C. Communications incidental to the purpose of
the amateur service and remarks of a personal nature
·
D. All of these choices are correct
E1F14 (A)
Under what circumstances might the FCC
issue a "Special Temporary Authority" (STA) to an amateur station?
·
A. To provide for experimental amateur
communications
·
B. To allow regular operation on Land Mobile
channels
·
C. To provide additional spectrum for personal
use
·
D. To provide temporary operation while
awaiting normal licensing
Subelement E2 - Operating Procedures
Group E2A - Amateur radio in space:
amateur satellites; orbital mechanics; frequencies and modes;
satellite hardware; satellite operations
E2A01 (C)
What is the direction of an ascending
pass for an amateur satellite?
·
A. From west to east
·
B. From east to west
·
C. From south to north
·
D. From north to south
E2A02 (A)
What is the direction of a descending
pass for an amateur satellite?
·
A. From north to south
·
B. From west to east
·
C. From east to west
·
D. From south to north
E2A03 (C)
What is the orbital period of an Earth
satellite?
·
A. The point of maximum height of a satellite's
orbit
·
B. The point of minimum height of a satellite's
orbit
·
C. The time it takes for a satellite to
complete one revolution around the Earth
·
D. The time it takes for a satellite to travel
from perigee to apogee
E2A04 (B)
What is meant by the term mode as
applied to an amateur radio satellite?
·
A. The type of signals that can be relayed
through the satellite
·
B. The satellite's uplink and downlink
frequency bands
·
C. The satellite's orientation with respect to
the Earth
·
D. Whether the satellite is in a polar or
equatorial orbit
E2A05 (D)
What do the letters in a satellite's
mode designator specify?
·
A. Power limits for uplink and downlink
transmissions
·
B. The location of the ground control station
·
C. The polarization of uplink and downlink
signals
·
D. The uplink and downlink frequency ranges
E2A06 (A)
On what band would a satellite receive
signals if it were operating in mode U/V?
·
A. 435-438 MHz
·
B. 144-146 MHz
·
C. 50.0-50.2 MHz
·
D. 29.5 to 29.7 MHz
E2A07 (D)
Which of the following types of signals
can be relayed through a linear transponder?
·
A. FM and CW
·
B. SSB and SSTV
·
C. PSK and Packet
·
D. All of these choices are correct
E2A08 (B)
Why should effective radiated power to a
satellite which uses a linear transponder be limited?
·
A. To prevent creating errors in the satellite
telemetry
·
B. To avoid reducing the downlink power to all
other users
·
C. To prevent the satellite from emitting out
of band signals
·
D. To avoid interfering with terrestrial QSOs
E2A09 (A)
What do the terms L band and S band
specify with regard to satellite communications?
·
A. The 23 centimeter and 13 centimeter bands
·
B. The 2 meter and 70 centimeter bands
·
C. FM and Digital Store-and-Forward systems
·
D. Which sideband to use
E2A10 (A)
Why may the received signal from an
amateur satellite exhibit a rapidly repeating fading effect?
·
A. Because the satellite is spinning
·
B. Because of ionospheric absorption
·
C. Because of the satellite's low orbital
altitude
·
D. Because of the Doppler Effect
E2A11 (B)
What type of antenna can be used to
minimize the effects of spin modulation and Faraday rotation?
·
A. A linearly polarized antenna
·
B. A circularly polarized antenna
·
C. An isotropic antenna
·
D. A log-periodic dipole array
E2A12 (D)
What is one way to predict the location
of a satellite at a given time?
·
A. By means of the Doppler data for the
specified satellite
·
B. By subtracting the mean anomaly from the
orbital inclination
·
C. By adding the mean anomaly to the orbital
inclination
·
D. By calculations using the Keplerian elements
for the specified satellite
E2A13 (B)
What type of satellite appears to stay
in one position in the sky?
·
A. HEO
·
B. Geostationary
·
C. Geomagnetic
·
D. LEO
Group E2B - Television practices:
fast scan television standards and techniques; slow scan
television standards and techniques
E2B01 (A)
How many times per second is a new frame
transmitted in a fast-scan (NTSC) television system?
·
A. 30
·
B. 60
·
C. 90
·
D. 120
E2B02 (C)
How many horizontal lines make up a
fast-scan (NTSC) television frame?
·
A. 30
·
B. 60
·
C. 525
·
D. 1080
E2B03 (D)
How is an interlaced scanning pattern
generated in a fast-scan (NTSC) television system?
·
A. By scanning two fields simultaneously
·
B. By scanning each field from bottom to top
·
C. By scanning lines from left to right in one
field and right to left in the next
·
D. By scanning odd numbered lines in one field
and even numbered ones in the next
E2B04 (B)
What is blanking in a video signal?
·
A. Synchronization of the horizontal and
vertical sync pulses
·
B. Turning off the scanning beam while it is
traveling from right to left or from bottom to top
·
C. Turning off the scanning beam at the
conclusion of a transmission
·
D. Transmitting a black and white test pattern
E2B05 (C)
Which of the following is an advantage
of using vestigial sideband for standard fast- scan TV transmissions?
·
A. The vestigial sideband carries the audio
information
·
B. The vestigial sideband contains chroma
information
·
C. Vestigial sideband reduces bandwidth while
allowing for simple video detector circuitry
·
D. Vestigial sideband provides high frequency
emphasis to sharpen the picture
E2B06 (A)
What is vestigial sideband modulation?
·
A. Amplitude modulation in which one complete
sideband and a portion of the other are transmitted
·
B. A type of modulation in which one sideband
is inverted
·
C. Narrow-band FM transmission achieved by
filtering one sideband from the audio before frequency modulating the
carrier
·
D. Spread spectrum modulation achieved by
applying FM modulation following single sideband amplitude modulation
E2B07 (B)
What is the name of the signal component
that carries color information in NTSC video?
·
A. Luminance
·
B. Chroma
·
C. Hue
·
D. Spectral Intensity
E2B08 (D)
Which of the following is a common
method of transmitting accompanying audio with amateur fast-scan
television?
·
A. Frequency-modulated sub-carrier
·
B. A separate VHF or UHF audio link
·
C. Frequency modulation of the video carrier
·
D. All of these choices are correct
E2B09 (D)
What hardware, other than a receiver
with SSB capability and a suitable computer, is needed to decode SSTV
using Digital Radio Mondiale (DRM)?
·
A. A special IF converter
·
B. A special front end limiter
·
C. A special notch filter to remove
synchronization pulses
·
D. No other hardware is needed
E2B10 (A)
Which of the following is an acceptable
bandwidth for Digital Radio Mondiale (DRM) based voice or SSTV digital
transmissions made on the HF amateur bands?
·
A. 3 KHz
·
B. 10 KHz
·
C. 15 KHz
·
D. 20 KHz
E2B11 (B)
What is the function of the Vertical
Interval Signaling (VIS) code transmitted as part of an SSTV
transmission?
·
A. To lock the color burst oscillator in color
SSTV images
·
B. To identify the SSTV mode being used
·
C. To provide vertical synchronization
·
D. To identify the call sign of the station
transmitting
E2B12 (D)
How are analog SSTV images typically
transmitted on the HF bands?
·
A. Video is converted to equivalent Baudot
representation
·
B. Video is converted to equivalent ASCII
representation
·
C. Varying tone frequencies representing the
video are transmitted using PSK
·
D. Varying tone frequencies representing the
video are transmitted using single sideband
E2B13 (C)
How many lines are commonly used in each
frame on an amateur slow-scan color television picture?
·
A. 30 to 60
·
B. 60 or 100
·
C. 128 or 256
·
D. 180 or 360
E2B14 (A)
What aspect of an amateur slow-scan
television signal encodes the brightness of the picture?
·
A. Tone frequency
·
B. Tone amplitude
·
C. Sync amplitude
·
D. Sync frequency
E2B15 (A)
What signals SSTV receiving equipment to
begin a new picture line?
·
A. Specific tone frequencies
·
B. Elapsed time
·
C. Specific tone amplitudes
·
D. A two-tone signal
E2B16 (D)
Which of the following is the video
standard used by North American Fast Scan ATV stations?
·
A. PAL
·
B. DRM
·
C. Scottie
·
D. NTSC
E2B17 (B)
What is the approximate bandwidth of a
slow-scan TV signal?
·
A. 600 Hz
·
B. 3 kHz
·
C. 2 MHz
·
D. 6 MHz
E2B18 (D)
On which of the following frequencies is
one likely to find FM ATV transmissions?
·
A. 14.230 MHz
·
B. 29.6 MHz
·
C. 52.525 MHz
·
D. 1255 MHz
E2B19 (C)
What special operating frequency
restrictions are imposed on slow scan TV transmissions?
·
A. None; they are allowed on all amateur
frequencies
·
B. They are restricted to 7.245 MHz, 14.245
MHz, 21.345, MHz, and 28.945 MHz
·
C. They are restricted to phone band segments
and their bandwidth can be no greater than that of a voice signal of
the same modulation type
·
D. They are not permitted above 54 MHz
Group E2C - Operating methods:
contest and DX operating; spread-spectrum transmissions; selecting
an operating frequency
E2C01 (A)
Which of the following is true about
contest operating?
·
A. Operators are permitted to make contacts
even if they do not submit a log
·
B. Interference to other amateurs is
unavoidable and therefore acceptable
·
C. It is mandatory to transmit the call sign of
the station being worked as part of every transmission to that station
·
D. Every contest requires a signal report in
the exchange
E2C02 (A)
Which of the following best describes
the term "self-spotting" in regards to contest operating?
·
A. The generally prohibited practice of posting
one's own call sign and frequency on a call sign spotting network
·
B. The acceptable practice of manually posting
the call signs of stations on a call sign spotting network
·
C. A manual technique for rapidly zero beating
or tuning to a station's frequency before calling that station
·
D. An automatic method for rapidly zero beating
or tuning to a station's frequency before calling that station
E2C03 (A)
From which of the following bands is
amateur radio contesting generally excluded?
·
A. 30 meters
·
B. 6 meters
·
C. 2 meters
·
D. 33 cm
E2C04 (D)
On which of the following frequencies is
an amateur radio contest contact generally discouraged?
·
A. 3.525 MHz
·
B. 14.020 MHz
·
C. 28.330 MHz
·
D. 146.52 MHz
E2C05 (B)
What is the function of a DX QSL
Manager?
·
A. To allocate frequencies for DXpeditions
·
B. To handle the receiving and sending of
confirmation cards for a DX station
·
C. To run a net to allow many stations to
contact a rare DX station
·
D. To relay calls to and from a DX station
E2C06 (C)
During a VHF/UHF contest, in which band
segment would you expect to find the highest level of activity?
·
A. At the top of each band, usually in a
segment reserved for contests
·
B. In the middle of each band, usually on the
national calling frequency
·
C. In the weak signal segment of the band, with
most of the activity near the calling frequency
·
D. In the middle of the band, usually 25 kHz
above the national calling frequency
E2C07 (A)
What is the Cabrillo format?
·
A. A standard for submission of electronic
contest logs
·
B. A method of exchanging information during a
contest QSO
·
C. The most common set of contest rules
·
D. The rules of order for meetings between
contest sponsors
E2C08 (A)
Why are received spread-spectrum signals
resistant to interference?
·
A. Signals not using the spectrum-spreading
algorithm are suppressed in the receiver
·
B. The high power used by a spread-spectrum
transmitter keeps its signal from being easily overpowered
·
C. The receiver is always equipped with a
digital blanker circuit
·
D. If interference is detected by the receiver
it will signal the transmitter to change frequencies
E2C09 (D)
How does the spread-spectrum technique
of frequency hopping work?
·
A. If interference is detected by the receiver
it will signal the transmitter to change frequencies
·
B. If interference is detected by the receiver
it will signal the transmitter to wait until the frequency is clear
·
C. A pseudo-random binary bit stream is used to
shift the phase of an RF carrier very rapidly in a particular sequence
·
D. The frequency of the transmitted signal is
changed very rapidly according to a particular sequence also used by
the receiving station
E2C10 (D)
Why might a DX station state that they
are listening on another frequency?
·
A. Because the DX station may be transmitting
on a frequency that is prohibited to some responding stations
·
B. To separate the calling stations from the DX
station
·
C. To reduce interference, thereby improving
operating efficiency
·
D. All of these choices are correct
E2C11 (A)
How should you generally identify your
station when attempting to contact a DX station working a pileup or in
a contest?
·
A. Send your full call sign once or twice
·
B. Send only the last two letters of your call
sign until you make contact
·
C. Send your full call sign and grid square
·
D. Send the call sign of the DX station three
times, the words this is, then your call sign three times
E2C12 (B)
What might help to restore contact when
DX signals become too weak to copy across an entire HF band a few
hours after sunset?
·
A. Switch to a higher frequency HF band
·
B. Switch to a lower frequency HF band
·
C. Wait 90 minutes or so for the signal
degradation to pass
·
D. Wait 24 hours before attempting another
communication on the band
Group E2D - Operating methods: VHF
and UHF digital modes; APRS
E2D01 (B)
Which of the following digital modes is
especially designed for use for meteor scatter signals?
·
A. WSPR
·
B. FSK441
·
C. Hellschreiber
·
D. APRS
E2D02 (A)
What is the definition of baud?
·
A. The number of data symbols transmitted per
second
·
B. The number of characters transmitted per
second
·
C. The number of characters transmitted per
minute
·
D. The number of words transmitted per minute
E2D03 (D)
Which of the following digital modes is
especially useful for EME communications?
·
A. FSK441
·
B. PACTOR III
·
C. Olivia
·
D. JT65
E2D04 (C)
What is the purpose of digital
store-and-forward functions on an Amateur Radio satellite?
·
A. To upload operational software for the
transponder
·
B. To delay download of telemetry between
satellites
·
C. To store digital messages in the satellite
for later download by other stations
·
D. To relay messages between satellites
E2D05 (B)
Which of the following techniques is
normally used by low Earth orbiting digital satellites to relay
messages around the world?
·
A. Digipeating
·
B. Store-and-forward
·
C. Multi-satellite relaying
·
D. Node hopping
E2D06 (A)
Which of the following is a commonly
used 2-meter APRS frequency?
·
A. 144.39 MHz
·
B. 144.20 MHz
·
C. 145.02 MHz
·
D. 146.52 MHz
E2D07 (C)
Which of the following digital protocols
is used by APRS?
·
A. PACTOR
·
B. 802.11
·
C. AX.25
·
D. AMTOR
E2D08 (A)
Which of the following types of packet
frames is used to transmit APRS beacon data?
·
A. Unnumbered Information
·
B. Disconnect
·
C. Acknowledgement
·
D. Connect
E2D09 (D)
Under clear communications conditions,
which of these digital communications modes has the fastest data
throughput?
·
A. AMTOR
·
B. 170-Hz shift, 45 baud RTTY
·
C. PSK31
·
D. 300-baud packet
E2D10 (C)
How can an APRS station be used to help
support a public service communications activity?
·
A. An APRS station with an emergency medical
technician can automatically transmit medical data to the nearest
hospital
·
B. APRS stations with General Personnel
Scanners can automatically relay the participant numbers and time as
they pass the check points
·
C. An APRS station with a GPS unit can
automatically transmit information to show a mobile station's position
during the event
·
D. All of these choices are correct
E2D11 (D)
Which of the following data are used by
the APRS network to communicate your location?
·
A. Polar coordinates
·
B. Time and frequency
·
C. Radio direction finding LOPs
·
D. Latitude and longitude
E2D12 (A)
How does JT65 improve EME
communications?
·
A. It can decode signals many dB below the
noise floor using FEC
·
B. It controls the receiver to track Doppler
shift
·
C. It supplies signals to guide the antenna to
track the Moon
·
D. All of these choices are correct
Group E2E - Operating methods:
operating HF digital modes; error correction
E2E01 (B)
Which type of modulation is common for
data emissions below 30 MHz?
·
A. DTMF tones modulating an FM signal
·
B. FSK
·
C. Pulse modulation
·
D. Spread spectrum
E2E02 (A)
What do the letters FEC mean as they
relate to digital operation?
·
A. Forward Error Correction
·
B. First Error Correction
·
C. Fatal Error Correction
·
D. Final Error Correction
E2E03 (C)
How is Forward Error Correction
implemented?
·
A. By the receiving station repeating each
block of three data characters
·
B. By transmitting a special algorithm to the
receiving station along with the data characters
·
C. By transmitting extra data that may be used
to detect and correct transmission errors
·
D. By varying the frequency shift of the
transmitted signal according to a predefined algorithm
E2E04 (A)
What is indicated when one of the
ellipses in an FSK crossed-ellipse display suddenly disappears?
·
A. Selective fading has occurred
·
B. One of the signal filters has saturated
·
C. The receiver has drifted 5 kHz from the
desired receive frequency
·
D. The mark and space signal have been inverted
E2E05 (D)
How does ARQ accomplish error
correction?
·
A. Special binary codes provide automatic
correction
·
B. Special polynomial codes provide automatic
correction
·
C. If errors are detected, redundant data is
substituted
·
D. If errors are detected, a retransmission is
requested
E2E06 (C)
What is the most common data rate used
for HF packet communications?
·
A. 48 baud
·
B. 110 baud
·
C. 300 baud
·
D. 1200 baud
E2E07 (B)
What is the typical bandwidth of a
properly modulated MFSK16 signal?
·
A. 31 Hz
·
B. 316 Hz
·
C. 550 Hz
·
D. 2.16 kHz
E2E08 (B)
Which of the following HF digital modes
can be used to transfer binary files?
·
A. Hellschreiber
·
B. PACTOR
·
C. RTTY
·
D. AMTOR
E2E09 (D)
Which of the following HF digital modes
uses variable-length coding for bandwidth efficiency?
·
A. RTTY
·
B. PACTOR
·
C. MT63
·
D. PSK31
E2E10 (C)
Which of these digital communications
modes has the narrowest bandwidth?
·
A. MFSK16
·
B. 170-Hz shift, 45 baud RTTY
·
C. PSK31
·
D. 300-baud packet
E2E11 (A)
What is the difference between direct
FSK and audio FSK?
·
A. Direct FSK applies the data signal to the
transmitter VFO
·
B. Audio FSK has a superior frequency response
·
C. Direct FSK uses a DC-coupled data connection
·
D. Audio FSK can be performed anywhere in the
transmit chain
E2E12 (A)
Which type of digital communication does
not support keyboard-to-keyboard operation?
·
A. Winlink
·
B. RTTY
·
C. PSK31
·
D. MFSK
Subelement E3 - Radio Wave Propagation
Group E3A - Propagation and
technique, Earth-Moon-Earth communications; meteor scatter
E3A01 (D)
What is the approximate maximum
separation measured along the surface of the Earth between two
stations communicating by Moon bounce?
·
A. 500 miles, if the Moon is at perigee
·
B. 2000 miles, if the Moon is at apogee
·
C. 5000 miles, if the Moon is at perigee
·
D. 12,000 miles, as long as both can "see" the
Moon
E3A02 (B)
What characterizes libration fading of
an Earth-Moon-Earth signal?
·
A. A slow change in the pitch of the CW signal
·
B. A fluttery irregular fading
·
C. A gradual loss of signal as the Sun rises
·
D. The returning echo is several Hertz lower in
frequency than the transmitted signal
E3A03 (A)
When scheduling EME contacts, which of
these conditions will generally result in the least path loss?
·
A. When the Moon is at perigee
·
B. When the Moon is full
·
C. When the Moon is at apogee
·
D. When the MUF is above 30 MHz
E3A04 (D)
What type of receiving system is
desirable for EME communications?
·
A. Equipment with very wide bandwidth
·
B. Equipment with very low dynamic range
·
C. Equipment with very low gain
·
D. Equipment with very low noise figures
E3A05 (A)
Which of the following describes a
method of establishing EME contacts?
·
A. Time synchronous transmissions with each
station alternating
·
B. Storing and forwarding digital messages
·
C. Judging optimum transmission times by
monitoring beacons from the Moon
·
D. High speed CW identification to avoid fading
E3A06 (B)
What frequency range would you normally
tune to find EME signals in the 2 meter band?
·
A. 144.000 - 144.001 MHz
·
B. 144.000 - 144.100 MHz
·
C. 144.100 - 144.300 MHz
·
D. 145.000 - 145.100 MHz
E3A07 (D)
What frequency range would you normally
tune to find EME signals in the 70 cm band?
·
A. 430.000 - 430.150 MHz
·
B. 430.100 - 431.100 MHz
·
C. 431.100 - 431.200 MHz
·
D. 432.000 - 432.100 MHz
E3A08 (A)
When a meteor strikes the Earth's
atmosphere, a cylindrical region of free electrons is formed at what
layer of the ionosphere?
·
A. The E layer
·
B. The F1 layer
·
C. The F2 layer
·
D. The D layer
E3A09 (C)
Which of the following frequency ranges
is well suited for meteor-scatter communications?
·
A. 1.8 - 1.9 MHz
·
B. 10 - 14 MHz
·
C. 28 - 148 MHz
·
D. 220 - 450 MHz
E3A10 (D)
Which of the following is a good
technique for making meteor-scatter contacts?
·
A. 15 second timed transmission sequences with
stations alternating based on location
·
B. Use of high speed CW or digital modes
·
C. Short transmission with rapidly repeated
call signs and signal reports
·
D. All of these choices are correct
Group E3B - Propagation and
technique, trans-equatorial; long path; gray-line; multi-path
propagation
E3B01 (A)
What is transequatorial propagation?
·
A. Propagation between two mid-latitude points
at approximately the same distance north and south of the magnetic
equator
·
B. Propagation between any two points located
on the magnetic equator
·
C. Propagation between two continents by way of
ducts along the magnetic equator
·
D. Propagation between two stations at the same
latitude
E3B02 (C)
What is the approximate maximum range
for signals using transequatorial propagation?
·
A. 1000 miles
·
B. 2500 miles
·
C. 5000 miles
·
D. 7500 miles
E3B03 (C)
What is the best time of day for
transequatorial propagation?
·
A. Morning
·
B. Noon
·
C. Afternoon or early evening
·
D. Late at night
E3B04 (A)
What type of propagation is probably
occurring if an HF beam antenna must be pointed in a direction 180
degrees away from a station to receive the strongest signals?
·
A. Long-path
·
B. Sporadic-E
·
C. Transequatorial
·
D. Auroral
E3B05 (C)
Which amateur bands typically support
long-path propagation?
·
A. 160 to 40 meters
·
B. 30 to 10 meters
·
C. 160 to 10 meters
·
D. 6 meters to 2 meters
E3B06 (B)
Which of the following amateur bands
most frequently provides long-path propagation?
·
A. 80 meters
·
B. 20 meters
·
C. 10 meters
·
D. 6 meters
E3B07 (D)
Which of the following could account for
hearing an echo on the received signal of a distant station?
·
A. High D layer absorption
·
B. Meteor scatter
·
C. Transmit frequency is higher than the MUF
·
D. Receipt of a signal by more than one path
E3B08 (D)
What type of HF propagation is probably
occurring if radio signals travel along the terminator between
daylight and darkness?
·
A. Transequatorial
·
B. Sporadic-E
·
C. Long-path
·
D. Gray-line
E3B09 (A)
At what time of day is gray-line
propagation most likely to occur?
·
A. At sunrise and sunset
·
B. When the Sun is directly above the location
of the transmitting station
·
C. When the Sun is directly overhead at the
middle of the communications path between the two stations
·
D. When the Sun is directly above the location
of the receiving station
E3B10 (B)
What is the cause of gray-line
propagation?
·
A. At midday, the Sun being directly overhead
superheats the ionosphere causing increased refraction of radio waves
·
B. At twilight, D-layer absorption drops while
E-layer and F-layer propagation remain strong
·
C. In darkness, solar absorption drops greatly
while atmospheric ionization remains steady
·
D. At mid afternoon, the Sun heats the
ionosphere decreasing radio wave refraction and the MUF
E3B11 (C)
Which of the following describes
gray-line propagation?
·
A. Backscatter contacts on the 10 meter band
·
B. Over the horizon propagation on the 6 and 2
meter bands
·
C. Long distance communications at twilight on
frequencies less than 15 MHz
·
D. Tropospheric propagation on the 2 meter and
70 centimeter bands
Group E3C - Propagation and
technique, Aurora propagation; selective fading; radio-path
horizon; take-off angle over flat or sloping terrain; effects of
ground on propagation; less common propagation modes
E3C01 (D)
Which of the following effects does
Aurora activity have on radio communications?
·
A. SSB signals are raspy
·
B. Signals propagating through the Aurora are
fluttery
·
C. CW signals appear to be modulated by white
noise
·
D. All of these choices are correct
E3C02 (C)
What is the cause of Aurora activity?
·
A. The interaction between the solar wind and
the Van Allen belt
·
B. A low sunspot level combined with
tropospheric ducting
·
C. The interaction of charged particles from
the Sun with the Earth's magnetic field and the ionosphere
·
D. Meteor showers concentrated in the northern
latitudes
E3C03 (D)
Where in the ionosphere does Aurora
activity occur?
·
A. In the F1-region
·
B. In the F2-region
·
C. In the D-region
·
D. In the E-region
E3C04 (A)
Which emission mode is best for Aurora
propagation?
·
A. CW
·
B. SSB
·
C. FM
·
D. RTTY
E3C05 (B)
Which of the following describes
selective fading?
·
A. Variability of signal strength with beam
heading
·
B. Partial cancellation of some frequencies
within the received pass band
·
C. Sideband inversion within the ionosphere
·
D. Degradation of signal strength due to
backscatter
E3C06 (A)
By how much does the VHF/UHF radio-path
horizon distance exceed the geometric horizon?
·
A. By approximately 15% of the distance
·
B. By approximately twice the distance
·
C. By approximately one-half the distance
·
D. By approximately four times the distance
E3C07 (B)
How does the radiation pattern of a
horizontally polarized 3-element beam antenna vary with its height
above ground?
·
A. The main lobe takeoff angle increases with
increasing height
·
B. The main lobe takeoff angle decreases with
increasing height
·
C. The horizontal beam width increases with
height
·
D. The horizontal beam width decreases with
height
E3C08 (B)
What is the name of the high-angle wave
in HF propagation that travels for some distance within the F2 region?
·
A. Oblique-angle ray
·
B. Pedersen ray
·
C. Ordinary ray
·
D. Heaviside ray
E3C09 (C)
Which of the following is usually
responsible for causing VHF signals to propagate for hundreds of
miles?
·
A. D-region absorption
·
B. Faraday rotation
·
C. Tropospheric ducting
·
D. Ground wave
E3C10 (B)
How does the performance of a
horizontally polarized antenna mounted on the side of a hill compare
with the same antenna mounted on flat ground?
·
A. The main lobe takeoff angle increases in the
downhill direction
·
B. The main lobe takeoff angle decreases in the
downhill direction
·
C. The horizontal beam width decreases in the
downhill direction
·
D. The horizontal beam width increases in the
uphill direction
E3C11 (B)
From the contiguous 48 states, in which
approximate direction should an antenna be pointed to take maximum
advantage of aurora propagation?
·
A. South
·
B. North
·
C. East
·
D. West
E3C12 (C)
How does the maximum distance of
ground-wave propagation change when the signal frequency is increased?
·
A. It stays the same
·
B. It increases
·
C. It decreases
·
D. It peaks at roughly 14 MHz
E3C13 (A)
What type of polarization is best for
ground-wave propagation?
·
A. Vertical
·
B. Horizontal
·
C. Circular
·
D. Elliptical
E3C14 (D)
Why does the radio-path horizon distance
exceed the geometric horizon?
·
A. E-region skip
·
B. D-region skip
·
C. Downward bending due to aurora refraction
·
D. Downward bending due to density variations
in the atmosphere
Subelement E4 - Amateur Practices
Group E4A - Test equipment: analog
and digital instruments; spectrum and network analyzers, antenna
analyzers; oscilloscopes; testing transistors; RF measurements
E4A01 (C)
How does a spectrum analyzer differ from
an oscilloscope?
·
A. A spectrum analyzer measures ionospheric
reflection; an oscilloscope displays electrical signals
·
B. A spectrum analyzer displays the peak
amplitude of signals; an oscilloscope displays the average amplitude
of signals
·
C. A spectrum analyzer displays signals in the
frequency domain; an oscilloscope displays signals in the time domain
·
D. A spectrum analyzer displays radio
frequencies; an oscilloscope displays audio frequencies
E4A02 (D)
Which of the following parameters would
a spectrum analyzer display on the horizontal axis?
·
A. SWR
·
B. Q
·
C. Time
·
D. Frequency
E4A03 (A)
Which of the following parameters would
a spectrum analyzer display on the vertical axis?
·
A. Amplitude
·
B. Duration
·
C. SWR
·
D. Q
E4A04 (A)
Which of the following test instruments
is used to display spurious signals from a radio transmitter?
·
A. A spectrum analyzer
·
B. A wattmeter
·
C. A logic analyzer
·
D. A time-domain reflectometer
E4A05 (B)
Which of the following test instruments
is used to display intermodulation distortion products in an SSB
transmission?
·
A. A wattmeter
·
B. A spectrum analyzer
·
C. A logic analyzer
·
D. A time-domain reflectometer
E4A06 (D)
Which of the following could be
determined with a spectrum analyzer?
·
A. The degree of isolation between the input
and output ports of a 2 meter duplexer
·
B. Whether a crystal is operating on its
fundamental or overtone frequency
·
C. The spectral output of a transmitter
·
D. All of these choices are correct
E4A07 (B)
Which of the following is an advantage
of using an antenna analyzer compared to an SWR bridge to measure
antenna SWR?
·
A. Antenna analyzers automatically tune your
antenna for resonance
·
B. Antenna analyzers do not need an external RF
source
·
C. Antenna analyzers display a time-varying
representation of the modulation envelope
·
D. All of these choices are correct
E4A08 (D)
Which of the following instruments would
be best for measuring the SWR of a beam antenna?
·
A. A spectrum analyzer
·
B. A Q meter
·
C. An ohmmeter
·
D. An antenna analyzer
E4A09 (A)
Which of the following describes a good
method for measuring the intermodulation distortion of your own PSK
signal?
·
A. Transmit into a dummy load, receive the
signal on a second receiver, and feed the audio into the sound card of
a computer running an appropriate PSK program
·
B. Multiply the ALC level on the transmitter
during a normal transmission by the average power output
·
C. Use an RF voltmeter coupled to the
transmitter output using appropriate isolation to prevent damage to
the meter
·
D. All of these choices are correct
E4A10 (D)
Which of the following tests establishes
that a silicon NPN junction transistor is biased on?
·
A. Measure base-to-emitter resistance with an
ohmmeter; it should be approximately6 to 7 ohms
·
B. Measure base-to-emitter resistance with an
ohmmeter; it should be approximately 0.6 to 0.7 ohms
·
C. Measure base-to-emitter voltage with a
voltmeter; it should be approximately 6 to 7 volts
·
D. Measure base-to-emitter voltage with a
voltmeter; it should be approximately0.6 to 0.7 volts
E4A11 (B)
Which of these instruments could be used
for detailed analysis of digital signals?
·
A. Dip meter
·
B. Oscilloscope
·
C. Ohmmeter
·
D. Q meter
E4A12 (B)
Which of the following procedures is an
important precaution to follow when connecting a spectrum analyzer to
a transmitter output?
·
A. Use high quality double shielded coaxial
cables to reduce signal losses
·
B. Attenuate the transmitter output going to
the spectrum analyzer
·
C. Match the antenna to the load
·
D. All of these choices are correct
Group E4B - Measurement technique
and limitations: instrument accuracy and performance limitations;
probes; techniques to minimize errors; measurement of "Q";
instrument calibration
E4B01 (B)
Which of the following factors most
affects the accuracy of a frequency counter?
·
A. Input attenuator accuracy
·
B. Time base accuracy
·
C. Decade divider accuracy
·
D. Temperature coefficient of the logic
E4B02 (C)
What is an advantage of using a bridge
circuit to measure impedance?
·
A. It provides an excellent match under all
conditions
·
B. It is relatively immune to drift in the
signal generator source
·
C. The measurement is based on obtaining a
signal null, which can be done very precisely
·
D. It can display results directly in Smith
chart format
E4B03 (C)
If a frequency counter with a specified
accuracy of +/- 1.0 ppm reads 146,520,000 Hz, what is the most the
actual frequency being measured could differ from the reading?
·
A. 165.2 Hz
·
B. 14.652 kHz
·
C. 146.52 Hz
·
D. 1.4652 MHz
E4B04 (A)
If a frequency counter with a specified
accuracy of +/- 0.1 ppm reads 146,520,000 Hz, what is the most the
actual frequency being measured could differ from the reading?
·
A. 14.652 Hz
·
B. 0.1 MHz
·
C. 1.4652 Hz
·
D. 1.4652 kHz
E4B05 (D)
If a frequency counter with a specified
accuracy of +/- 10 ppm reads 146,520,000 Hz, what is the most the
actual frequency being measured could differ from the reading?
·
A. 146.52 Hz
·
B. 10 Hz
·
C. 146.52 kHz
·
D. 1465.20 Hz
E4B06 (D)
How much power is being absorbed by the
load when a directional power meter connected between a transmitter
and a terminating load reads 100 watts forward power and 25 watts
reflected power?
·
A. 100 watts
·
B. 125 watts
·
C. 25 watts
·
D. 75 watts
E4B07 (A)
Which of the following is good practice
when using an oscilloscope probe?
·
A. Keep the signal ground connection of the
probe as short as possible
·
B. Never use a high impedance probe to measure
a low impedance circuit
·
C. Never use a DC-coupled probe to measure an
AC circuit
·
D. All of these choices are correct
E4B08 (C)
Which of the following is a
characteristic of a good DC voltmeter?
·
A. High reluctance input
·
B. Low reluctance input
·
C. High impedance input
·
D. Low impedance input
E4B09 (D)
What is indicated if the current reading
on an RF ammeter placed in series with the antenna feed line of a
transmitter increases as the transmitter is tuned to resonance?
·
A. There is possibly a short to ground in the
feed line
·
B. The transmitter is not properly neutralized
·
C. There is an impedance mismatch between the
antenna and feed line
·
D. There is more power going into the antenna
E4B10 (B)
Which of the following describes a
method to measure intermodulation distortion in an SSB transmitter?
·
A. Modulate the transmitter with two
non-harmonically related radio frequencies and observe the RF output
with a spectrum analyzer
·
B. Modulate the transmitter with two
non-harmonically related audio frequencies and observe the RF output
with a spectrum analyzer
·
C. Modulate the transmitter with two
harmonically related audio frequencies and observe the RF output with
a peak reading wattmeter
·
D. Modulate the transmitter with two
harmonically related audio frequencies and observe the RF output with
a logic analyzer
E4B11 (D)
How should a portable antenna analyzer
be connected when measuring antenna resonance and feed point
impedance?
·
A. Loosely couple the analyzer near the antenna
base
·
B. Connect the analyzer via a high-impedance
transformer to the antenna
·
C. Connect the antenna and a dummy load to the
analyzer
·
D. Connect the antenna feed line directly to
the analyzer's connector
E4B12 (A)
What is the significance of voltmeter
sensitivity expressed in ohms per volt?
·
A. The full scale reading of the voltmeter
multiplied by its ohms per volt rating will provide the input
impedance of the voltmeter
·
B. When used as a galvanometer, the reading in
volts multiplied by the ohms/volt will determine the power drawn by
the device under test
·
C. When used as an ohmmeter, the reading in
ohms divided by the ohms/volt will determine the voltage applied to
the circuit
·
D. When used as an ammeter, the full scale
reading in amps divided by ohms/volt will determine the size of shunt
needed
E4B13 (A)
How is the compensation of an
oscilloscope probe typically adjusted?
·
A. A square wave is displayed and the probe is
adjusted until the horizontal portions of the displayed wave are as
nearly flat as possible
·
B. A high frequency sine wave is displayed and
the probe is adjusted for maximum amplitude
·
C. A frequency standard is displayed and the
probe is adjusted until the deflection time is accurate
·
D. A DC voltage standard is displayed and the
probe is adjusted until the displayed voltage is accurate
E4B14 (B)
What happens if a dip meter is too
tightly coupled to a tuned circuit being checked?
·
A. Harmonics are generated
·
B. A less accurate reading results
·
C. Cross modulation occurs
·
D. Intermodulation distortion occurs
E4B15 (C)
Which of the following can be used as a
relative measurement of the Q for a series-tuned circuit?
·
A. The inductance to capacitance ratio
·
B. The frequency shift
·
C. The bandwidth of the circuit's frequency
response
·
D. The resonant frequency of the circuit
Group E4C - Receiver performance
characteristics, phase noise, capture effect, noise floor, image
rejection, MDS, signal-to-noise-ratio; selectivity
E4C01 (D)
What is an effect of excessive phase
noise in the local oscillator section of a receiver?
·
A. It limits the receiver's ability to receive
strong signals
·
B. It reduces receiver sensitivity
·
C. It decreases receiver third-order
intermodulation distortion dynamic range
·
D. It can cause strong signals on nearby
frequencies to interfere with reception of weak signals
E4C02 (A)
Which of the following portions of a
receiver can be effective in eliminating image signal interference?
·
A. A front-end filter or pre-selector
·
B. A narrow IF filter
·
C. A notch filter
·
D. A properly adjusted product detector
E4C03 (C)
What is the term for the blocking of one
FM phone signal by another, stronger FM phone signal?
·
A. Desensitization
·
B. Cross-modulation interference
·
C. Capture effect
·
D. Frequency discrimination
E4C04 (D)
What is the definition of the noise
figure of a receiver?
·
A. The ratio of atmospheric noise to phase
noise
·
B. The noise bandwidth in Hertz compared to the
theoretical bandwidth of a resistive network
·
C. The ratio of thermal noise to atmospheric
noise
·
D. The ratio in dB of the noise generated by
the receiver compared to the theoretical minimum noise
E4C05 (B)
What does a value of -174 dBm/Hz
represent with regard to the noise floor of a receiver?
·
A. The minimum detectable signal as a function
of receive frequency
·
B. The theoretical noise at the input of a
perfect receiver at room temperature
·
C. The noise figure of a 1 Hz bandwidth
receiver
·
D. The galactic noise contribution to minimum
detectable signal
E4C06 (D)
A CW receiver with the AGC off has an
equivalent input noise power density of -174 dBm/Hz. What would be the
level of an unmodulated carrier input to this receiver that would
yield an audio output SNR of 0 dB in a 400 Hz noise bandwidth?
·
A. 174 dBm
·
B. -164 dBm
·
C. -155 dBm
·
D. -148 dBm
E4C07 (B)
What does the MDS of a receiver
represent?
·
A. The meter display sensitivity
·
B. The minimum discernible signal
·
C. The multiplex distortion stability
·
D. The maximum detectable spectrum
E4C08 (B)
How might lowering the noise figure
affect receiver performance?
·
A. It would reduce the signal to noise ratio
·
B. It would improve weak signal sensitivity
·
C. It would reduce bandwidth
·
D. It would increase bandwidth
E4C09 (C)
Which of the following choices is a good
reason for selecting a high frequency for the design of the IF in a
conventional HF or VHF communications receiver?
·
A. Fewer components in the receiver
·
B. Reduced drift
·
C. Easier for front-end circuitry to eliminate
image responses
·
D. Improved receiver noise figure
E4C10 (B)
Which of the following is a desirable
amount of selectivity for an amateur RTTY HF receiver?
·
A. 100 Hz
·
B. 300 Hz
·
C. 6000 Hz
·
D. 2400 Hz
E4C11 (B)
Which of the following is a desirable
amount of selectivity for an amateur SSB phone receiver?
·
A. 1 kHz
·
B. 2.4 kHz
·
C. 4.2 kHz
·
D. 4.8 kHz
E4C12 (D)
What is an undesirable effect of using
too wide a filter bandwidth in the IF section of a receiver?
·
A. Output-offset overshoot
·
B. Filter ringing
·
C. Thermal-noise distortion
·
D. Undesired signals may be heard
E4C13 (C)
How does a narrow-band roofing filter
affect receiver performance?
·
A. It improves sensitivity by reducing front
end noise
·
B. It improves intelligibility by using low Q
circuitry to reduce ringing
·
C. It improves dynamic range by attenuating
strong signals near the receive frequency
·
D. All of these choices are correct
E4C14 (D)
On which of the following frequencies
might a signal be transmitting which is generating a spurious image
signal in a receiver tuned to 14.300 MHz and which uses a 455 kHz IF
frequency?
·
A. 13.845 MHz
·
B. 14.755 MHz
·
C. 14.445 MHz
·
D. 15.210 MHz
E4C15 (D)
What is the primary source of noise that
can be heard from an HF receiver with an antenna connected?
·
A. Detector noise
·
B. Induction motor noise
·
C. Receiver front-end noise
·
D. Atmospheric noise
Group E4D - Receiver performance
characteristics, blocking dynamic range, intermodulation and
cross-modulation interference; 3rd order intercept;
desensitization; preselection
E4D01 (A)
What is meant by the blocking dynamic
range of a receiver?
·
A. The difference in dB between the noise floor
and the level of an incoming signal which will cause 1 dB of gain
compression
·
B. The minimum difference in dB between the
levels of two FM signals which will cause one signal to block the
other
·
C. The difference in dB between the noise floor
and the third order intercept point
·
D. The minimum difference in dB between two
signals which produce third order intermodulation products greater
than the noise floor
E4D02 (A)
Which of the following describes two
problems caused by poor dynamic range in a communications receiver?
·
A. Cross-modulation of the desired signal and
desensitization from strong adjacent signals
·
B. Oscillator instability requiring frequent
retuning and loss of ability to recover the opposite sideband
·
C. Cross-modulation of the desired signal and
insufficient audio power to operate the speaker
·
D. Oscillator instability and severe audio
distortion of all but the strongest received signals
E4D03 (B)
How can intermodulation interference
between two repeaters occur?
·
A. When the repeaters are in close proximity
and the signals cause feedback in the final amplifier of one or both
transmitters
·
B. When the repeaters are in close proximity
and the signals mix in the final amplifier of one or both transmitters
·
C. When the signals from the transmitters are
reflected out of phase from airplanes passing overhead
·
D. When the signals from the transmitters are
reflected in phase from airplanes passing overhead
E4D04 (B)
Which of the following may reduce or
eliminate intermodulation interference in a repeater caused by another
transmitter operating in close proximity?
·
A. A band-pass filter in the feed line between
the transmitter and receiver
·
B. A properly terminated circulator at the
output of the transmitter
·
C. A Class C final amplifier
·
D. A Class D final amplifier
E4D05 (A)
What transmitter frequencies would cause
an intermodulation-product signal in a receiver tuned to 146.70 MHz
when a nearby station transmits on 146.52 MHz?
·
A. 146.34 MHz and 146.61 MHz
·
B. 146.88 MHz and 146.34 MHz
·
C. 146.10 MHz and 147.30 MHz
·
D. 173.35 MHz and 139.40 MHz
E4D06 (D)
What is the term for unwanted signals
generated by the mixing of two or more signals?
·
A. Amplifier desensitization
·
B. Neutralization
·
C. Adjacent channel interference
·
D. Intermodulation interference
E4D07 (D)
Which of the following describes the
most significant effect of an off-frequency signal when it is causing
cross-modulation interference to a desired signal?
·
A. A large increase in background noise
·
B. A reduction in apparent signal strength
·
C. The desired signal can no longer be heard
·
D. The off-frequency unwanted signal is heard
in addition to the desired signal
E4D08 (C)
What causes intermodulation in an
electronic circuit?
·
A. Too little gain
·
B. Lack of neutralization
·
C. Nonlinear circuits or devices
·
D. Positive feedback
E4D09 (C)
What is the purpose of the preselector
in a communications receiver?
·
A. To store often-used frequencies
·
B. To provide a range of AGC time constants
·
C. To increase rejection of unwanted signals
·
D. To allow selection of the optimum RF
amplifier device
E4D10 (C)
What does a third-order intercept level
of 40 dBm mean with respect to receiver performance?
·
A. Signals less than 40 dBm will not generate
audible third-order intermodulation products
·
B. The receiver can tolerate signals up to 40
dB above the noise floor without producing third-order intermodulation
products
·
C. A pair of 40 dBm signals will theoretically
generate a third-order intermodulation product with the same level as
the input signals
·
D. A pair of 1 mW input signals will produce a
third-order intermodulation product which is 40 dB stronger than the
input signal
E4D11 (A)
Why are third-order intermodulation
products created within a receiver of particular interest compared to
other products?
·
A. The third-order product of two signals which
are in the band of interest is also likely to be within the band
·
B. The third-order intercept is much higher
than other orders
·
C. Third-order products are an indication of
poor image rejection
·
D. Third-order intermodulation produces three
products for every input signal within the band of interest
E4D12 (A)
What is the term for the reduction in
receiver sensitivity caused by a strong signal near the received
frequency?
·
A. Desensitization
·
B. Quieting
·
C. Cross-modulation interference
·
D. Squelch gain rollback
E4D13 (B)
Which of the following can cause
receiver desensitization?
·
A. Audio gain adjusted too low
·
B. Strong adjacent-channel signals
·
C. Audio bias adjusted too high
·
D. Squelch gain misadjusted
E4D14 (A)
Which of the following is a way to
reduce the likelihood of receiver desensitization?
·
A. Decrease the RF bandwidth of the receiver
·
B. Raise the receiver IF frequency
·
C. Increase the receiver front end gain
·
D. Switch from fast AGC to slow AGC
Group E4E - Noise suppression:
system noise; electrical appliance noise; line noise; locating
noise sources; DSP noise reduction; noise blankers
E4E01 (A)
Which of the following types of receiver
noise can often be reduced by use of a receiver noise blanker?
·
A. Ignition noise
·
B. Broadband white noise
·
C. Heterodyne interference
·
D. All of these choices are correct
E4E02 (D)
Which of the following types of receiver
noise can often be reduced with a DSP noise filter?
·
A. Broadband white noise
·
B. Ignition noise
·
C. Power line noise
·
D. All of these choices are correct
E4E03 (B)
Which of the following signals might a
receiver noise blanker be able to remove from desired signals?
·
A. Signals which are constant at all IF levels
·
B. Signals which appear across a wide bandwidth
·
C. Signals which appear at one IF but not
another
·
D. Signals which have a sharply peaked
frequency distribution
E4E04 (D)
How can conducted and radiated noise
caused by an automobile alternator be suppressed?
·
A. By installing filter capacitors in series
with the DC power lead and by installing a blocking capacitor in the
field lead
·
B. By installing a noise suppression resistor
and a blocking capacitor in both leads
·
C. By installing a high-pass filter in series
with the radio's power lead and a low-pass filter in parallel with the
field lead
·
D. By connecting the radio's power leads
directly to the battery and by installing coaxial capacitors in line
with the alternator leads
E4E05 (B)
How can noise from an electric motor be
suppressed?
·
A. By installing a high pass filter in series
with the motor's power leads
·
B. By installing a brute-force AC-line filter
in series with the motor leads
·
C. By installing a bypass capacitor in series
with the motor leads
·
D. By using a ground-fault current interrupter
in the circuit used to power the motor
E4E06 (B)
What is a major cause of atmospheric
static?
·
A. Solar radio frequency emissions
·
B. Thunderstorms
·
C. Geomagnetic storms
·
D. Meteor showers
E4E07 (C)
How can you determine if line noise
interference is being generated within your home?
·
A. By checking the power line voltage with a
time domain reflectometer
·
B. By observing the AC power line waveform with
an oscilloscope
·
C. By turning off the AC power line main
circuit breaker and listening on a battery operated radio
·
D. By observing the AC power line voltage with
a spectrum analyzer
E4E08 (A)
What type of signal is picked up by
electrical wiring near a radio antenna?
·
A. A common-mode signal at the frequency of the
radio transmitter
·
B. An electrical-sparking signal
·
C. A differential-mode signal at the AC power
line frequency
·
D. Harmonics of the AC power line frequency
E4E09 (C)
What undesirable effect can occur when
using an IF noise blanker?
·
A. Received audio in the speech range might
have an echo effect
·
B. The audio frequency bandwidth of the
received signal might be compressed
·
C. Nearby signals may appear to be excessively
wide even if they meet emission standards
·
D. FM signals can no longer be demodulated
E4E10 (D)
What is a common characteristic of
interference caused by a touch controlled electrical device?
·
A. The interfering signal sounds like AC hum on
an AM receiver or a carrier modulated by 60 Hz hum on a SSB or CW
receiver
·
B. The interfering signal may drift slowly
across the HF spectrum
·
C. The interfering signal can be several kHz in
width and usually repeats at regular intervals across a HF band
·
D. All of these choices are correct
E4E11 (B)
Which of the following is the most
likely cause if you are hearing combinations of local AM broadcast
signals within one or more of the MF or HF ham bands?
·
A. The broadcast station is transmitting an
over-modulated signal
·
B. Nearby corroded metal joints are mixing and
re-radiating the broadcast signals
·
C. You are receiving sky wave signals from a
distant station
·
D. Your station receiver IF amplifier stage is
defective
E4E12 (A)
What is one disadvantage of using some
types of automatic DSP notch-filters when attempting to copy CW
signals?
·
A. The DSP filter can remove the desired signal
at the same time as it removes interfering signals
·
B. Any nearby signal passing through the DSP
system will overwhelm the desired signal
·
C. Received CW signals will appear to be
modulated at the DSP clock frequency
·
D. Ringing in the DSP filter will completely
remove the spaces between the CW characters
E4E13 (D)
What might be the cause of a loud
roaring or buzzing AC line interference that comes and goes at
intervals?
·
A. Arcing contacts in a thermostatically
controlled device
·
B. A defective doorbell or doorbell transformer
inside a nearby residence
·
C. A malfunctioning illuminated advertising
display
·
D. All of these choices are correct
E4E14 (C)
What is one type of electrical
interference that might be caused by the operation of a nearby
personal computer?
·
A. A loud AC hum in the audio output of your
station receiver
·
B. A clicking noise at intervals of a few
seconds
·
C. The appearance of unstable modulated or
unmodulated signals at specific frequencies
·
D. A whining type noise that continually pulses
off and on
Subelement E5 - Electrical Principles
Group E5A - Resonance and Q:
characteristics of resonant circuits: series and parallel
resonance; Q; half-power bandwidth; phase relationships in
reactive circuits
E5A01 (A)
What can cause the voltage across
reactances in series to be larger than the voltage applied to them?
·
A. Resonance
·
B. Capacitance
·
C. Conductance
·
D. Resistance
E5A02 (C)
What is resonance in an electrical
circuit?
·
A. The highest frequency that will pass current
·
B. The lowest frequency that will pass current
·
C. The frequency at which the capacitive
reactance equals the inductive reactance
·
D. The frequency at which the reactive
impedance equals the resistive impedance
E5A03 (D)
What is the magnitude of the impedance
of a series RLC circuit at resonance?
·
A. High, as compared to the circuit resistance
·
B. Approximately equal to capacitive reactance
·
C. Approximately equal to inductive reactance
·
D. Approximately equal to circuit resistance
E5A04 (A)
What is the magnitude of the impedance
of a circuit with a resistor, an inductor and a capacitor all in
parallel, at resonance?
·
A. Approximately equal to circuit resistance
·
B. Approximately equal to inductive reactance
·
C. Low, as compared to the circuit resistance
·
D. Approximately equal to capacitive reactance
E5A05 (B)
What is the magnitude of the current at
the input of a series RLC circuit as the frequency goes through
resonance?
·
A. Minimum
·
B. Maximum
·
C. R/L
·
D. L/R
E5A06 (B)
What is the magnitude of the circulating
current within the components of a parallel LC circuit at resonance?
·
A. It is at a minimum
·
B. It is at a maximum
·
C. It equals 1 divided by the quantity 2 times
Pi, multiplied by the square root of inductance L multiplied by
capacitance C
·
D. It equals 2 multiplied by Pi, multiplied by
frequency "F", multiplied by inductance "L"
E5A07 (A)
What is the magnitude of the current at
the input of a parallel RLC circuit at resonance?
·
A. Minimum
·
B. Maximum
·
C. R/L
·
D. L/R
E5A08 (C)
What is the phase relationship between
the current through and the voltage across a series resonant circuit
at resonance?
·
A. The voltage leads the current by 90 degrees
·
B. The current leads the voltage by 90 degrees
·
C. The voltage and current are in phase
·
D. The voltage and current are 180 degrees out
of phase
E5A09 (C)
What is the phase relationship between
the current through and the voltage across a parallel resonant circuit
at resonance?
·
A. The voltage leads the current by 90 degrees
·
B. The current leads the voltage by 90 degrees
·
C. The voltage and current are in phase
·
D. The voltage and current are 180 degrees out
of phase
E5A10 (A)
What is the half-power bandwidth of a
parallel resonant circuit that has a resonant frequency of 1.8 MHz and
a Q of 95?
·
A. 18.9 kHz
·
B. 1.89 kHz
·
C. 94.5 kHz
·
D. 9.45 kHz
E5A11 (C)
What is the half-power bandwidth of a
parallel resonant circuit that has a resonant frequency of 7.1 MHz and
a Q of 150?
·
A. 157.8 Hz
·
B. 315.6 Hz
·
C. 47.3 kHz
·
D. 23.67 kHz
E5A12 (C)
What is the half-power bandwidth of a
parallel resonant circuit that has a resonant frequency of 3.7 MHz and
a Q of 118?
·
A. 436.6 kHz
·
B. 218.3 kHz
·
C. 31.4 kHz
·
D. 15.7 kHz
E5A13 (B)
What is the half-power bandwidth of a
parallel resonant circuit that has a resonant frequency of 14.25 MHz
and a Q of 187?
·
A. 38.1 kHz
·
B. 76.2 kHz
·
C. 1.332 kHz
·
D. 2.665 kHz
E5A14 (C)
What is the resonant frequency of a
series RLC circuit if R is 22 ohms, L is 50 microhenrys and C is 40
picofarads?
·
A. 44.72 MHz
·
B. 22.36 MHz
·
C. 3.56 MHz
·
D. 1.78 MHz
E5A15 (B)
What is the resonant frequency of a
series RLC circuit if R is 56 ohms, L is 40 microhenrys and C is 200
picofarads?
·
A. 3.76 MHz
·
B. 1.78 MHz
·
C. 11.18 MHz
·
D. 22.36 MHz
E5A16 (D)
What is the resonant frequency of a
parallel RLC circuit if R is 33 ohms, L is 50 microhenrys and C is 10
picofarads?
·
A. 23.5 MHz
·
B. 23.5 kHz
·
C. 7.12 kHz
·
D. 7.12 MHz
E5A17 (A)
What is the resonant frequency of a
parallel RLC circuit if R is 47 ohms, L is 25 microhenrys and C is 10
picofarads?
·
A. 10.1 MHz
·
B. 63.2 MHz
·
C. 10.1 kHz
·
D. 63.2 kHz
Group E5B - Time constants and phase
relationships: RLC time constants: definition; time constants in
RL and RC circuits; phase angle between voltage and current; phase
angles of series and parallel circuits
E5B01 (B)
What is the term for the time required
for the capacitor in an RC circuit to be charged to 63.2% of the
applied voltage?
·
A. An exponential rate of one
·
B. One time constant
·
C. One exponential period
·
D. A time factor of one
E5B02 (D)
What is the term for the time it takes
for a charged capacitor in an RC circuit to discharge to 36.8% of its
initial voltage?
·
A. One discharge period
·
B. An exponential discharge rate of one
·
C. A discharge factor of one
·
D. One time constant
E5B03 (D)
The capacitor in an RC circuit is
discharged to what percentage of the starting voltage after two time
constants?
·
A. 86.5%
·
B. 63.2%
·
C. 36.8%
·
D. 13.5%
E5B04 (D)
What is the time constant of a circuit
having two 220-microfarad capacitors and two 1-megohm resistors, all
in parallel?
·
A. 55 seconds
·
B. 110 seconds
·
C. 440 seconds
·
D. 220 seconds
E5B05 (A)
How long does it take for an initial
charge of 20 V DC to decrease to 7.36 V DC in a 0.01-microfarad
capacitor when a 2-megohm resistor is connected across it?
·
A. 0.02 seconds
·
B. 0.04 seconds
·
C. 20 seconds
·
D. 40 seconds
E5B06 (C)
How long does it take for an initial
charge of 800 V DC to decrease to 294 V DC in a 450-microfarad
capacitor when a 1-megohm resistor is connected across it?
·
A. 4.50 seconds
·
B. 9 seconds
·
C. 450 seconds
·
D. 900 seconds
E5B07 (C)
What is the phase angle between the
voltage across and the current through a series RLC circuit if XC is
500 ohms, R is 1 kilohm, and XL is 250 ohms?
·
A. 68.2 degrees with the voltage leading the
current
·
B. 14.0 degrees with the voltage leading the
current
·
C. 14.0 degrees with the voltage lagging the
current
·
D. 68.2 degrees with the voltage lagging the
current
E5B08 (A)
What is the phase angle between the
voltage across and the current through a series RLC circuit if XC is
100 ohms, R is 100 ohms, and XL is 75 ohms?
·
A. 14 degrees with the voltage lagging the
current
·
B. 14 degrees with the voltage leading the
current
·
C. 76 degrees with the voltage leading the
current
·
D. 76 degrees with the voltage lagging the
current
E5B09 (D)
What is the relationship between the
current through a capacitor and the voltage across a capacitor?
·
A. Voltage and current are in phase
·
B. Voltage and current are 180 degrees out of
phase
·
C. Voltage leads current by 90 degrees
·
D. Current leads voltage by 90 degrees
E5B10 (A)
What is the relationship between the
current through an inductor and the voltage across an inductor?
·
A. Voltage leads current by 90 degrees
·
B. Current leads voltage by 90 degrees
·
C. Voltage and current are 180 degrees out of
phase
·
D. Voltage and current are in phase
E5B11 (B)
What is the phase angle between the
voltage across and the current through a series RLC circuit if XC is
25 ohms, R is 100 ohms, and XL is 50 ohms?
·
A. 14 degrees with the voltage lagging the
current
·
B. 14 degrees with the voltage leading the
current
·
C. 76 degrees with the voltage lagging the
current
·
D. 76 degrees with the voltage leading the
current
E5B12 (C)
What is the phase angle between the
voltage across and the current through a series RLC circuit if XC is
75 ohms, R is 100 ohms, and XL is 50 ohms?
·
A. 76 degrees with the voltage lagging the
current
·
B. 14 degrees with the voltage leading the
current
·
C. 14 degrees with the voltage lagging the
current
·
D. 76 degrees with the voltage leading the
current
E5B13 (D)
What is the phase angle between the
voltage across and the current through a series RLC circuit if XC is
250 ohms, R is 1 kilohm, and XL is 500 ohms?
·
A. 81.47 degrees with the voltage lagging the
current
·
B. 81.47 degrees with the voltage leading the
current
·
C. 14.04 degrees with the voltage lagging the
current
·
D. 14.04 degrees with the voltage leading the
current
Group E5C - Impedance plots and
coordinate systems: plotting impedances in polar coordinates;
rectangular coordinates
E5C01 (B)
In polar coordinates, what is the
impedance of a network consisting of a 100-ohm-reactance inductor in
series with a 100-ohm resistor?
·
A. 121 ohms at an angle of 35 degrees
·
B. 141 ohms at an angle of 45 degrees
·
C. 161 ohms at an angle of 55 degrees
·
D. 181 ohms at an angle of 65 degrees
E5C02 (D)
In polar coordinates, what is the
impedance of a network consisting of a 100-ohm-reactance inductor, a
100-ohm-reactance capacitor, and a 100-ohm resistor, all connected in
series?
·
A. 100 ohms at an angle of 90 degrees
·
B. 10 ohms at an angle of 0 degrees
·
C. 10 ohms at an angle of 90 degrees
·
D. 100 ohms at an angle of 0 degrees
E5C03 (A)
In polar coordinates, what is the
impedance of a network consisting of a 300-ohm-reactance capacitor, a
600-ohm-reactance inductor, and a 400-ohm resistor, all connected in
series?
·
A. 500 ohms at an angle of 37 degrees
·
B. 900 ohms at an angle of 53 degrees
·
C. 400 ohms at an angle of 0 degrees
·
D. 1300 ohms at an angle of 180 degrees
E5C04 (D)
In polar coordinates, what is the
impedance of a network consisting of a 400-ohm-reactance capacitor in
series with a 300-ohm resistor?
·
A. 240 ohms at an angle of 36.9 degrees
·
B. 240 ohms at an angle of -36.9 degrees
·
C. 500 ohms at an angle of 53.1 degrees
·
D. 500 ohms at an angle of -53.1 degrees
E5C05 (A)
In polar coordinates, what is the
impedance of a network consisting of a 400-ohm-reactance inductor in
parallel with a 300-ohm resistor?
·
A. 240 ohms at an angle of 36.9 degrees
·
B. 240 ohms at an angle of -36.9 degrees
·
C. 500 ohms at an angle of 53.1 degrees
·
D. 500 ohms at an angle of -53.1 degrees
E5C06 (D)
In polar coordinates, what is the
impedance of a network consisting of a 100-ohm-reactance capacitor in
series with a 100-ohm resistor?
·
A. 121 ohms at an angle of -25 degrees
·
B. 191 ohms at an angle of -85 degrees
·
C. 161 ohms at an angle of -65 degrees
·
D. 141 ohms at an angle of -45 degrees
E5C07 (C)
In polar coordinates, what is the
impedance of a network comprised of a 100-ohm-reactance capacitor in
parallel with a 100-ohm resistor?
·
A. 31 ohms at an angle of -15 degrees
·
B. 51 ohms at an angle of -25 degrees
·
C. 71 ohms at an angle of -45 degrees
·
D. 91 ohms at an angle of -65 degrees
E5C08 (B)
In polar coordinates, what is the
impedance of a network comprised of a 300-ohm-reactance inductor in
series with a 400-ohm resistor?
·
A. 400 ohms at an angle of 27 degrees
·
B. 500 ohms at an angle of 37 degrees
·
C. 500 ohms at an angle of 47 degrees
·
D. 700 ohms at an angle of 57 degrees
E5C09 (A)
When using rectangular coordinates to
graph the impedance of a circuit, what does the horizontal axis
represent?
·
A. Resistive component
·
B. Reactive component
·
C. The sum of the reactive and resistive
components
·
D. The difference between the resistive and
reactive components
E5C10 (B)
When using rectangular coordinates to
graph the impedance of a circuit, what does the vertical axis
represent?
·
A. Resistive component
·
B. Reactive component
·
C. The sum of the reactive and resistive
components
·
D. The difference between the resistive and
reactive components
E5C11 (C)
What do the two numbers represent that
are used to define a point on a graph using rectangular coordinates?
·
A. The magnitude and phase of the point
·
B. The sine and cosine values
·
C. The coordinate values along the horizontal
and vertical axes
·
D. The tangent and cotangent values
E5C12 (D)
If you plot the impedance of a circuit
using the rectangular coordinate system and find the impedance point
falls on the right side of the graph on the horizontal axis, what do
you know about the circuit?
·
A. It has to be a direct current circuit
·
B. It contains resistance and capacitive
reactance
·
C. It contains resistance and inductive
reactance
·
D. It is equivalent to a pure resistance
E5C13 (D)
What coordinate system is often used to
display the resistive, inductive, and/or capacitive reactance
components of an impedance?
·
A. Maidenhead grid
·
B. Faraday grid
·
C. Elliptical coordinates
·
D. Rectangular coordinates
E5C14 (D)
What coordinate system is often used to
display the phase angle of a circuit containing resistance, inductive
and/or capacitive reactance?
·
A. Maidenhead grid
·
B. Faraday grid
·
C. Elliptical coordinates
·
D. Polar coordinates
E5C15 (A)
In polar coordinates, what is the
impedance of a circuit of 100 -j100 ohms impedance?
·
A. 141 ohms at an angle of -45 degrees
·
B. 100 ohms at an angle of 45 degrees
·
C. 100 ohms at an angle of -45 degrees
·
D. 141 ohms at an angle of 45 degrees
E5C16 (B)
In polar coordinates, what is the
impedance of a circuit that has an admittance of 7.09 millisiemens at
45 degrees?
·
A. 5.03 E-06 ohms at an angle of 45 degrees
·
B. 141 ohms at an angle of -45 degrees
·
C. 19,900 ohms at an angle of -45 degrees
·
D. 141 ohms at an angle of 45 degrees
E5C17 (C)
In rectangular coordinates, what is the
impedance of a circuit that has an admittance of 5 millisiemens at -30
degrees?
·
A. 173 - j100 ohms
·
B. 200 + j100 ohms
·
C. 173 + j100 ohms
·
D. 200 - j100 ohms
E5C18 (B)
In polar coordinates, what is the
impedance of a series circuit consisting of a resistance of 4 ohms, an
inductive reactance of 4 ohms, and a capacitive reactance of 1 ohm?
·
A. 6.4 ohms at an angle of 53 degrees
·
B. 5 ohms at an angle of 37 degrees
·
C. 5 ohms at an angle of 45 degrees
·
D. 10 ohms at an angle of -51 degrees
E5C19 (B)
Which point on Figure E5-2 best
represents that impedance of a series circuit consisting of a 400 ohm
resistor and a 38 picofarad capacitor at 14 MHz?
·
A. Point 2
·
B. Point 4
·
C. Point 5
·
D. Point 6
E5C20 (B)
Which point in Figure E5-2 best
represents the impedance of a series circuit consisting of a 300 ohm
resistor and an 18 microhenry inductor at 3.505 MHz?
·
A. Point 1
·
B. Point 3
·
C. Point 7
·
D. Point 8
E5C21 (A)
Which point on Figure E5-2 best
represents the impedance of a series circuit consisting of a 300 ohm
resistor and a 19 picofarad capacitor at 21.200 MHz?
·
A. Point 1
·
B. Point 3
·
C. Point 7
·
D. Point 8
E5C22 (A)
In rectangular coordinates, what is the
impedance of a network consisting of a 10-microhenry inductor in
series with a 40-ohm resistor at 500 MHz?
·
A. 40 + j31,400
·
B. 40 - j31,400
·
C. 31,400 + j40
·
D. 31,400 - j40
E5C23 (D)
Which point on Figure E5-2 best
represents the impedance of a series circuit consisting of a 300-ohm
resistor, a 0.64-microhenry inductor and an 85-picofarad capacitor at
24.900 MHz?
·
A. Point 1
·
B. Point 3
·
C. Point 5
·
D. Point 8
Group E5D - AC and RF energy in real
circuits: skin effect; electrostatic and electromagnetic fields;
reactive power; power factor; coordinate systems
E5D01 (A)
What is the result of skin effect?
·
A. As frequency increases, RF current flows in
a thinner layer of the conductor, closer to the surface
·
B. As frequency decreases, RF current flows in
a thinner layer of the conductor, closer to the surface
·
C. Thermal effects on the surface of the
conductor increase the impedance
·
D. Thermal effects on the surface of the
conductor decrease the impedance
E5D02 (C)
Why is the resistance of a conductor
different for RF currents than for direct currents?
·
A. Because the insulation conducts current at
high frequencies
·
B. Because of the Heisenburg Effect
·
C. Because of skin effect
·
D. Because conductors are non-linear devices
E5D03 (C)
What device is used to store electrical
energy in an electrostatic field?
·
A. A battery
·
B. A transformer
·
C. A capacitor
·
D. An inductor
E5D04 (B)
What unit measures electrical energy
stored in an electrostatic field?
·
A. Coulomb
·
B. Joule
·
C. Watt
·
D. Volt
E5D05 (B)
Which of the following creates a
magnetic field?
·
A. Potential differences between two points in
space
·
B. Electric current
·
C. A charged capacitor
·
D. A battery
E5D06 (D)
In what direction is the magnetic field
oriented about a conductor in relation to the direction of electron
flow?
·
A. In the same direction as the current
·
B. In a direction opposite to the current
·
C. In all directions; omnidirectional
·
D. In a direction determined by the left-hand
rule
E5D07 (D)
What determines the strength of a
magnetic field around a conductor?
·
A. The resistance divided by the current
·
B. The ratio of the current to the resistance
·
C. The diameter of the conductor
·
D. The amount of current
E5D08 (B)
What type of energy is stored in an
electromagnetic or electrostatic field?
·
A. Electromechanical energy
·
B. Potential energy
·
C. Thermodynamic energy
·
D. Kinetic energy
E5D09 (B)
What happens to reactive power in an AC
circuit that has both ideal inductors and ideal capacitors?
·
A. It is dissipated as heat in the circuit
·
B. It is repeatedly exchanged between the
associated magnetic and electric fields, but is not dissipated
·
C. It is dissipated as kinetic energy in the
circuit
·
D. It is dissipated in the formation of
inductive and capacitive fields
E5D10 (A)
How can the true power be determined in
an AC circuit where the voltage and current are out of phase?
·
A. By multiplying the apparent power times the
power factor
·
B. By dividing the reactive power by the power
factor
·
C. By dividing the apparent power by the power
factor
·
D. By multiplying the reactive power times the
power factor
E5D11 (C)
What is the power factor of an R-L
circuit having a 60 degree phase angle between the voltage and the
current?
·
A. 1.414
·
B. 0.866
·
C. 0.5
·
D. 1.73
E5D12 (B)
How many watts are consumed in a circuit
having a power factor of 0.2 if the input is 100-V AC at 4 amperes?
·
A. 400 watts
·
B. 80 watts
·
C. 2000 watts
·
D. 50 watts
E5D13 (B)
How much power is consumed in a circuit
consisting of a 100 ohm resistor in series with a 100 ohm inductive
reactance drawing 1 ampere?
·
A. 70.7 Watts
·
B. 100 Watts
·
C. 141.4 Watts
·
D. 200 Watts
E5D14 (A)
What is reactive power?
·
A. Wattless, nonproductive power
·
B. Power consumed in wire resistance in an
inductor
·
C. Power lost because of capacitor leakage
·
D. Power consumed in circuit Q
E5D15 (D)
What is the power factor of an RL
circuit having a 45 degree phase angle between the voltage and the
current?
·
A. 0.866
·
B. 1.0
·
C. 0.5
·
D. 0.707
E5D16 (C)
What is the power factor of an RL
circuit having a 30 degree phase angle between the voltage and the
current?
·
A. 1.73
·
B. 0.5
·
C. 0.866
·
D. 0.577
E5D17 (D)
How many watts are consumed in a circuit
having a power factor of 0.6 if the input is 200V AC at 5 amperes?
·
A. 200 watts
·
B. 1000 watts
·
C. 1600 watts
·
D. 600 watts
E5D18 (B)
How many watts are consumed in a circuit
having a power factor of 0.71 if the apparent power is 500 VA?
·
A. 704 W
·
B. 355 W
·
C. 252 W
·
D. 1.42 mW
Subelement E6 - Circuit Components
Group E6A - Semiconductor materials
and devices: semiconductor materials germanium, silicon, P-type,
N-type; transistor types: NPN, PNP, junction, field-effect
transistors: enhancement mode; depletion mode; MOS; CMOS;
N-channel; P-channel
E6A01 (C)
In what application is gallium arsenide
used as a semiconductor material in preference to germanium or
silicon?
·
A. In high-current rectifier circuits
·
B. In high-power audio circuits
·
C. At microwave frequencies
·
D. At very low frequency RF circuits
E6A02 (A)
Which of the following semiconductor
materials contains excess free electrons?
·
A. N-type
·
B. P-type
·
C. Bipolar
·
D. Insulated gate
E6A03 (C)
What are the majority charge carriers in
P-type semiconductor material?
·
A. Free neutrons
·
B. Free protons
·
C. Holes
·
D. Free electrons
E6A04 (C)
What is the name given to an impurity
atom that adds holes to a semiconductor crystal structure?
·
A. Insulator impurity
·
B. N-type impurity
·
C. Acceptor impurity
·
D. Donor impurity
E6A05 (C)
What is the alpha of a bipolar junction
transistor?
·
A. The change of collector current with respect
to base current
·
B. The change of base current with respect to
collector current
·
C. The change of collector current with respect
to emitter current
·
D. The change of collector current with respect
to gate current
E6A06 (B)
What is the beta of a bipolar junction
transistor?
·
A. The frequency at which the current gain is
reduced to 1
·
B. The change in collector current with respect
to base current
·
C. The breakdown voltage of the base to
collector junction
·
D. The switching speed of the transistor
E6A07 (A)
In Figure E6-1, what is the schematic
symbol for a PNP transistor?
·
A. 1
·
B. 2
·
C. 4
·
D. 5
E6A08 (D)
What term indicates the frequency at
which the grounded-base current gain of a transistor has decreased to
0.7 of the gain obtainable at 1 kHz?
·
A. Corner frequency
·
B. Alpha rejection frequency
·
C. Beta cutoff frequency
·
D. Alpha cutoff frequency
E6A09 (A)
What is a depletion-mode FET?
·
A. An FET that exhibits a current flow between
source and drain when no gate voltage is applied
·
B. An FET that has no current flow between
source and drain when no gate voltage is applied
·
C. Any FET without a channel
·
D. Any FET for which holes are the majority
carriers
E6A10 (B)
In Figure E6-2, what is the schematic
symbol for an N-channel dual-gate MOSFET?
·
A. 2
·
B. 4
·
C. 5
·
D. 6
E6A11 (A)
In Figure E6-2, what is the schematic
symbol for a P-channel junction FET?
·
A. 1
·
B. 2
·
C. 3
·
D. 6
E6A12 (D)
Why do many MOSFET devices have
internally connected Zener diodes on the gates?
·
A. To provide a voltage reference for the
correct amount of reverse-bias gate voltage
·
B. To protect the substrate from excessive
voltages
·
C. To keep the gate voltage within
specifications and prevent the device from overheating
·
D. To reduce the chance of the gate insulation
being punctured by static discharges or excessive voltages
E6A13 (C)
What do the initials CMOS stand for?
·
A. Common Mode Oscillating System
·
B. Complementary Mica-Oxide Silicon
·
C. Complementary Metal-Oxide Semiconductor
·
D. Common Mode Organic Silicon
E6A14 (C)
How does DC input impedance at the gate
of a field-effect transistor compare with the DC input impedance of a
bipolar transistor?
·
A. They are both low impedance
·
B. An FET has low input impedance; a bipolar
transistor has high input impedance
·
C. An FET has high input impedance; a bipolar
transistor has low input impedance
·
D. They are both high impedance
E6A15 (B)
Which of the following semiconductor
materials contains an excess of holes in the outer shell of electrons?
·
A. N-type
·
B. P-type
·
C. Superconductor-type
·
D. Bipolar-type
E6A16 (B)
What are the majority charge carriers in
N-type semiconductor material?
·
A. Holes
·
B. Free electrons
·
C. Free protons
·
D. Free neutrons
E6A17 (D)
What are the names of the three
terminals of a field-effect transistor?
·
A. Gate 1, gate 2, drain
·
B. Emitter, base, collector
·
C. Emitter, base 1, base 2
·
D. Gate, drain, source
Group E6B - Semiconductor diodes
E6B01 (B)
What is the most useful characteristic
of a Zener diode?
·
A. A constant current drop under conditions of
varying voltage
·
B. A constant voltage drop under conditions of
varying current
·
C. A negative resistance region
·
D. An internal capacitance that varies with the
applied voltage
E6B02 (D)
What is an important characteristic of a
Schottky diode as compared to an ordinary silicon diode when used as a
power supply rectifier?
·
A. Much higher reverse voltage breakdown
·
B. Controlled reverse avalanche voltage
·
C. Enhanced carrier retention time
·
D. Less forward voltage drop
E6B03 (C)
What special type of diode is capable of
both amplification and oscillation?
·
A. Point contact
·
B. Zener
·
C. Tunnel
·
D. Junction
E6B04 (A)
What type of semiconductor device is
designed for use as a voltage-controlled capacitor?
·
A. Varactor diode
·
B. Tunnel diode
·
C. Silicon-controlled rectifier
·
D. Zener diode
E6B05 (D)
What characteristic of a PIN diode makes
it useful as an RF switch or attenuator?
·
A. Extremely high reverse breakdown voltage
·
B. Ability to dissipate large amounts of power
·
C. Reverse bias controls its forward voltage
drop
·
D. A large region of intrinsic material
E6B06 (D)
Which of the following is a common use
of a hot-carrier diode?
·
A. As balanced mixers in FM generation
·
B. As a variable capacitance in an automatic
frequency control circuit
·
C. As a constant voltage reference in a power
supply
·
D. As a VHF / UHF mixer or detector
E6B07 (B)
What is the failure mechanism when a
junction diode fails due to excessive current?
·
A. Excessive inverse voltage
·
B. Excessive junction temperature
·
C. Insufficient forward voltage
·
D. Charge carrier depletion
E6B08 (A)
Which of the following describes a type
of semiconductor diode?
·
A. Metal-semiconductor junction
·
B. Electrolytic rectifier
·
C. CMOS-field effect
·
D. Thermionic emission diode
E6B09 (C)
What is a common use for point contact
diodes?
·
A. As a constant current source
·
B. As a constant voltage source
·
C. As an RF detector
·
D. As a high voltage rectifier
E6B10 (B)
In Figure E6-3, what is the schematic
symbol for a light-emitting diode?
·
A. 1
·
B. 5
·
C. 6
·
D. 7
E6B11 (A)
What is used to control the attenuation
of RF signals by a PIN diode?
·
A. Forward DC bias current
·
B. A sub-harmonic pump signal
·
C. Reverse voltage larger than the RF signal
·
D. Capacitance of an RF coupling capacitor
E6B12 (C)
What is one common use for PIN diodes?
·
A. As a constant current source
·
B. As a constant voltage source
·
C. As an RF switch
·
D. As a high voltage rectifier
E6B13 (B)
What type of bias is required for an LED
to emit light?
·
A. Reverse bias
·
B. Forward bias
·
C. Zero bias
·
D. Inductive bias
Group E6C - Integrated circuits: TTL
digital integrated circuits; CMOS digital integrated circuits;
gates
E6C01 (C)
What is the recommended power supply
voltage for TTL series integrated circuits?
·
A. 12 volts
·
B. 1.5 volts
·
C. 5 volts
·
D. 13.6 volts
E6C02 (A)
What logic state do the inputs of a TTL
device assume if they are left open?
·
A. A logic-high state
·
B. A logic-low state
·
C. The device becomes randomized and will not
provide consistent high or low-logic states
·
D. Open inputs on a TTL device are ignored
E6C03 (A)
Which of the following describes
tri-state logic?
·
A. Logic devices with 0, 1, and high impedance
output states
·
B. Logic devices that utilize ternary math
·
C. Low power logic devices designed to operate
at 3 volts
·
D. Proprietary logic devices manufactured by
Tri-State Devices
E6C04 (B)
Which of the following is the primary
advantage of tri-state logic?
·
A. Low power consumption
·
B. Ability to connect many device outputs to a
common bus
·
C. High speed operation
·
D. More efficient arithmetic operations
E6C05 (D)
Which of the following is an advantage
of CMOS logic devices over TTL devices?
·
A. Differential output capability
·
B. Lower distortion
·
C. Immune to damage from static discharge
·
D. Lower power consumption
E6C06 (C)
Why do CMOS digital integrated circuits
have high immunity to noise on the input signal or power supply?
·
A. Larger bypass capacitors are used in CMOS
circuit design
·
B. The input switching threshold is about two
times the power supply voltage
·
C. The input switching threshold is about
one-half the power supply voltage
·
D. Input signals are stronger
E6C07 (A)
In Figure E6-5, what is the schematic
symbol for an AND gate?
·
A. 1
·
B. 2
·
C. 3
·
D. 4
E6C08 (B)
In Figure E6-5, what is the schematic
symbol for a NAND gate?
·
A. 1
·
B. 2
·
C. 3
·
D. 4
E6C09 (B)
In Figure E6-5, what is the schematic
symbol for an OR gate?
·
A. 2
·
B. 3
·
C. 4
·
D. 6
E6C10 (D)
In Figure E6-5, what is the schematic
symbol for a NOR gate?
·
A. 1
·
B. 2
·
C. 3
·
D. 4
E6C11 (C)
In Figure E6-5, what is the schematic
symbol for the NOT operation (inverter)?
·
A. 2
·
B. 4
·
C. 5
·
D. 6
E6C12 (D)
What is BiCMOS logic?
·
A. A logic device with two CMOS circuits per
package
·
B. An FET logic family based on bimetallic
semiconductors
·
C. A logic family based on bismuth CMOS devices
·
D. An integrated circuit logic family using
both bipolar and CMOS transistors
E6C13 (C)
Which of the following is an advantage
of BiCMOS logic?
·
A. Its simplicity results in much less
expensive devices than standard CMOS
·
B. It is totally immune to electrostatic damage
·
C. It has the high input impedance of CMOS and
the low output impedance of bipolar transistors
·
D. All of these choices are correct
Group E6D - Optical devices and
toroids: cathode-ray tube devices; charge-coupled devices (CCDs);
liquid crystal displays (LCDs); toroids: permeability, core
material, selecting, winding
E6D01 (D)
What is cathode ray tube (CRT)
persistence?
·
A. The time it takes for an image to appear
after the electron beam is turned on
·
B. The relative brightness of the display under
varying conditions of ambient light
·
C. The ability of the display to remain in
focus under varying conditions
·
D. The length of time the image remains on the
screen after the beam is turned off
E6D02 (B)
Exceeding what design rating can cause a
cathode ray tube (CRT) to generate X-rays?
·
A. The heater voltage
·
B. The anode voltage
·
C. The operating temperature
·
D. The operating frequency
E6D03 (C)
Which of the following is true of a
charge-coupled device (CCD)?
·
A. Its phase shift changes rapidly with
frequency
·
B. It is a CMOS analog-to-digital converter
·
C. It samples an analog signal and passes it in
stages from the input to the output
·
D. It is used in a battery charger circuit
E6D04 (A)
What function does a charge-coupled
device (CCD) serve in a modern video camera?
·
A. It stores photogenerated charges as signals
corresponding to pixels
·
B. It generates the horizontal pulses needed
for electron beam scanning
·
C. It focuses the light used to produce a
pattern of electrical charges corresponding to the image
·
D. It combines audio and video information to
produce a composite RF signal
E6D05 (B)
What is a liquid-crystal display (LCD)?
·
A. A modern replacement for a quartz crystal
oscillator which displays its fundamental frequency
·
B. A display using a crystalline liquid which,
in conjunction with polarizing filters, becomes opaque when voltage is
applied
·
C. A frequency-determining unit for a
transmitter or receiver
·
D. A display that uses a glowing liquid to
remain brightly lit in dim light
E6D06 (D)
What core material property determines
the inductance of a toroidal inductor?
·
A. Thermal impedance
·
B. Resistance
·
C. Reactivity
·
D. Permeability
E6D07 (B)
What is the usable frequency range of
inductors that use toroidal cores, assuming a correct selection of
core material for the frequency being used?
·
A. From a few kHz to no more than 30 MHz
·
B. From less than 20 Hz to approximately 300
MHz
·
C. From approximately 10 Hz to no more than
3000 kHz
·
D. From about 100 kHz to at least 1000 GHz
E6D08 (B)
What is one important reason for using
powdered-iron toroids rather than ferrite toroids in an inductor?
·
A. Powdered-iron toroids generally have greater
initial permeability
·
B. Powdered-iron toroids generally maintain
their characteristics at higher currents
·
C. Powdered-iron toroids generally require
fewer turns to produce a given inductance value
·
D. Powdered-iron toroids have higher power
handling capacity
E6D09 (C)
What devices are commonly used as VHF
and UHF parasitic suppressors at the input and output terminals of
transistorized HF amplifiers?
·
A. Electrolytic capacitors
·
B. Butterworth filters
·
C. Ferrite beads
·
D. Steel-core toroids
E6D10 (A)
What is a primary advantage of using a
toroidal core instead of a solenoidal core in an inductor?
·
A. Toroidal cores confine most of the magnetic
field within the core material
·
B. Toroidal cores make it easier to couple the
magnetic energy into other components
·
C. Toroidal cores exhibit greater hysteresis
·
D. Toroidal cores have lower Q characteristics
E6D11 (C)
How many turns will be required to
produce a 1-mH inductor using a ferrite toroidal core that has an
inductance index (A L) value of 523 millihenrys/1000 turns?
·
A. 2 turns
·
B. 4 turns
·
C. 43 turns
·
D. 229 turns
E6D12 (A)
How many turns will be required to
produce a 5-microhenry inductor using a powdered-iron toroidal core
that has an inductance index (A L) value of 40 microhenrys/100 turns?
·
A. 35 turns
·
B. 13 turns
·
C. 79 turns
·
D. 141 turns
E6D13 (D)
What type of CRT deflection is better
when high-frequency waveforms are to be displayed on the screen?
·
A. Electromagnetic
·
B. Tubular
·
C. Radar
·
D. Electrostatic
E6D14 (C)
Which is NOT true of a charge-coupled
device (CCD)?
·
A. It uses a combination of analog and digital
circuitry
·
B. It can be used to make an audio delay line
·
C. It is commonly used as an analog-to-digital
converter
·
D. It samples and stores analog signals
E6D15 (A)
What is the principle advantage of
liquid-crystal display (LCD) devices over other types of display
devices?
·
A. They consume less power
·
B. They can display changes instantly
·
C. They are visible in all light conditions
·
D. They can be easily interchanged with other
display devices
E6D16 (C)
What is one reason for using ferrite
toroids rather than powdered-iron toroids in an inductor?
·
A. Ferrite toroids generally have lower initial
permeabilities
·
B. Ferrite toroids generally have better
temperature stability
·
C. Ferrite toroids generally require fewer
turns to produce a given inductance value
·
D. Ferrite toroids are easier to use with
surface mount technology
Group E6E - Piezoelectric crystals
and MMICs: quartz crystals; crystal oscillators and filters;
monolithic amplifiers
E6E01 (D)
What is a crystal lattice filter?
·
A. A power supply filter made with interlaced
quartz crystals
·
B. An audio filter made with four quartz
crystals that resonate at 1-kHz intervals
·
C. A filter with wide bandwidth and shallow
skirts made using quartz crystals
·
D. A filter with narrow bandwidth and steep
skirts made using quartz crystals
E6E02 (A)
Which of the following factors has the
greatest effect in helping determine the bandwidth and response shape
of a crystal ladder filter?
·
A. The relative frequencies of the individual
crystals
·
B. The DC voltage applied to the quartz crystal
·
C. The gain of the RF stage preceding the
filter
·
D. The amplitude of the signals passing through
the filter
E6E03 (A)
What is one aspect of the piezoelectric
effect?
·
A. Physical deformation of a crystal by the
application of a voltage
·
B. Mechanical deformation of a crystal by the
application of a magnetic field
·
C. The generation of electrical energy by the
application of light
·
D. Reversed conduction states when a P-N
junction is exposed to light
E6E04 (A)
What is the most common input and output
impedance of circuits that use MMICs?
·
A. 50 ohms
·
B. 300 ohms
·
C. 450 ohms
·
D. 10 ohms
E6E05 (A)
Which of the following noise figure
values is typical of a low-noise UHF preamplifier?
·
A. 2 dB
·
B. -10 dB
·
C. 44 dBm
·
D. -20 dBm
E6E06 (D)
What characteristics of the MMIC make it
a popular choice for VHF through microwave circuits?
·
A. The ability to retrieve information from a
single signal even in the presence of other strong signals.
·
B. Plate current that is controlled by a
control grid
·
C. Nearly infinite gain, very high input
impedance, and very low output impedance
·
D. Controlled gain, low noise figure, and
constant input and output impedance over the specified frequency range
E6E07 (B)
Which of the following techniques is
typically used to construct a MMIC-based microwave amplifier?
·
A. Ground-plane construction
·
B. Microstrip construction
·
C. Point-to-point construction
·
D. Wave-soldering construction
E6E08 (A)
How is power-supply voltage normally
furnished to the most common type of monolithic microwave integrated
circuit (MMIC)?
·
A. Through a resistor and/or RF choke connected
to the amplifier output lead
·
B. MMICs require no operating bias
·
C. Through a capacitor and RF choke connected
to the amplifier input lead
·
D. Directly to the bias-voltage (VCC IN) lead
E6E09 (B)
Which of the following must be done to
insure that a crystal oscillator provides the frequency specified by
the crystal manufacturer?
·
A. Provide the crystal with a specified
parallel inductance
·
B. Provide the crystal with a specified
parallel capacitance
·
C. Bias the crystal at a specified voltage
·
D. Bias the crystal at a specified current
E6E10 (A)
What is the equivalent circuit of a
quartz crystal?
·
A. Motional capacitance, motional inductance
and loss resistance in series, with a shunt capacitance representing
electrode and stray capacitance
·
B. Motional capacitance, motional inductance,
loss resistance, and a capacitor representing electrode and stray
capacitance all in parallel
·
C. Motional capacitance, motional inductance,
loss resistance, and a capacitor represent electrode and stray
capacitance all in series
·
D. Motional inductance and loss resistance in
series, paralleled with motional capacitance and a capacitor
representing electrode and stray capacitance
E6E11 (D)
Which of the following materials is
likely to provide the highest frequency of operation when used in
MMICs?
·
A. Silicon
·
B. Silicon nitride
·
C. Silicon dioxide
·
D. Gallium nitride
E6E12 (B)
What is a "Jones filter" as used as part
of a HF receiver IF stage?
·
A. An automatic notch filter
·
B. A variable bandwidth crystal lattice filter
·
C. A special filter that emphasizes image
responses
·
D. A filter that removes impulse noise
Group E6F - Optical components and
power systems: photoconductive principles and effects,
photovoltaic systems, optical couplers, optical sensors, and
optoisolators
E6F01 (B)
What is photoconductivity?
·
A. The conversion of photon energy to
electromotive energy
·
B. The increased conductivity of an illuminated
semiconductor
·
C. The conversion of electromotive energy to
photon energy
·
D. The decreased conductivity of an illuminated
semiconductor
E6F02 (A)
What happens to the conductivity of a
photoconductive material when light shines on it?
·
A. It increases
·
B. It decreases
·
C. It stays the same
·
D. It becomes unstable
E6F03 (D)
What is the most common configuration of
an optoisolator or optocoupler?
·
A. A lens and a photomultiplier
·
B. A frequency modulated helium-neon laser
·
C. An amplitude modulated helium-neon laser
·
D. An LED and a phototransistor
E6F04 (B)
What is the photovoltaic effect?
·
A. The conversion of voltage to current when
exposed to light
·
B. The conversion of light to electrical energy
·
C. The conversion of electrical energy to
mechanical energy
·
D. The tendency of a battery to discharge when
used outside
E6F05 (A)
Which of the following describes an
optical shaft encoder?
·
A. A device which detects rotation of a control
by interrupting a light source with a patterned wheel
·
B. A device which measures the strength a beam
of light using analog to digital conversion
·
C. A digital encryption device often used to
encrypt spacecraft control signals
·
D. A device for generating RTTY signals by
means of a rotating light source.
E6F06 (A)
Which of these materials is affected the
most by photoconductivity?
·
A. A crystalline semiconductor
·
B. An ordinary metal
·
C. A heavy metal
·
D. A liquid semiconductor
E6F07 (B)
What is a solid state relay?
·
A. A relay using transistors to drive the relay
coil
·
B. A device that uses semiconductor devices to
implement the functions of an electromechanical relay
·
C. A mechanical relay that latches in the on or
off state each time it is pulsed
·
D. A passive delay line
E6F08 (C)
Why are optoisolators often used in
conjunction with solid state circuits when switching 120 VAC?
·
A. Optoisolators provide a low impedance link
between a control circuit and a power circuit
·
B. Optoisolators provide impedance matching
between the control circuit and power circuit
·
C. Optoisolators provide a very high degree of
electrical isolation between a control circuit and the circuit being
switched
·
D. Optoisolators eliminate the effects of
reflected light in the control circuit
E6F09 (D)
What is the efficiency of a photovoltaic
cell?
·
A. The output RF power divided by the input dc
power
·
B. The effective payback period
·
C. The open-circuit voltage divided by the
short-circuit current under full illumination
·
D. The relative fraction of light that is
converted to current
E6F10 (B)
What is the most common type of
photovoltaic cell used for electrical power generation?
·
A. Selenium
·
B. Silicon
·
C. Cadmium Sulfide
·
D. Copper oxide
E6F11 (B)
Which of the following is the
approximate open-circuit voltage produced by a fully-illuminated
silicon photovoltaic cell?
·
A. 0.1 V
·
B. 0.5 V
·
C. 1.5 V
·
D. 12 V
E6F12 (C)
What absorbs the energy from light
falling on a photovoltaic cell?
·
A. Protons
·
B. Photons
·
C. Electrons
·
D. Holes
Subelement E7 - Practical Circuits
Group E7A - Digital circuits:
digital circuit principles and logic circuits: classes of logic
elements; positive and negative logic; frequency dividers; truth
tables
E7A01 (C)
Which of the following is a bistable
circuit?
·
A. An "AND" gate
·
B. An "OR" gate
·
C. A flip-flop
·
D. A clock
E7A02 (C)
How many output level changes are
obtained for every two trigger pulses applied to the input of a T
flip-flop circuit?
·
A. None
·
B. One
·
C. Two
·
D. Four
E7A03 (B)
Which of the following can divide the
frequency of a pulse train by 2?
·
A. An XOR gate
·
B. A flip-flop
·
C. An OR gate
·
D. A multiplexer
E7A04 (B)
How many flip-flops are required to
divide a signal frequency by 4?
·
A. 1
·
B. 2
·
C. 4
·
D. 8
E7A05 (D)
Which of the following is a circuit that
continuously alternates between two states without an external clock?
·
A. Monostable multivibrator
·
B. J-K flip-flop
·
C. T flip-flop
·
D. Astable multivibrator
E7A06 (A)
What is a characteristic of a monostable
multivibrator?
·
A. It switches momentarily to the opposite
binary state and then returns, after a set time, to its original state
·
B. It is a clock that produces a continuous
square wave oscillating between 1 and 0
·
C. It stores one bit of data in either a 0 or 1
state
·
D. It maintains a constant output voltage,
regardless of variations in the input voltage
E7A07 (D)
What logical operation does a NAND gate
perform?
·
A. It produces a logic "0" at its output only
when all inputs are logic "0"
·
B. It produces a logic "1" at its output only
when all inputs are logic "1"
·
C. It produces a logic "0" at its output if
some but not all of its inputs are logic "1"
·
D. It produces a logic "0" at its output only
when all inputs are logic "1"
E7A08 (A)
What logical operation does an OR gate
perform?
·
A. It produces a logic "1" at its output if any
or all inputs are logic "1"
·
B. It produces a logic "0" at its output if all
inputs are logic "1"
·
C. It only produces a logic "0" at its output
when all inputs are logic "1"
·
D. It produces a logic "1" at its output if all
inputs are logic "0"
E7A09 (C)
What logical operation is performed by a
two-input exclusive NOR gate?
·
A. It produces a logic "0" at its output only
if all inputs are logic "0"
·
B. It produces a logic "1" at its output only
if all inputs are logic "1"
·
C. It produces a logic "0" at its output if any
single input is a logic "1"?
·
D. It produces a logic "1" at its output if any
single input is a logic "1"?
E7A10 (C)
What is a truth table?
·
A. A table of logic symbols that indicate the
high logic states of an op-amp
·
B. A diagram showing logic states when the
digital device's output is true
·
C. A list of inputs and corresponding outputs
for a digital device
·
D. A table of logic symbols that indicates the
low logic states of an op-amp
E7A11 (D)
What is the name for logic which
represents a logic "1" as a high voltage?
·
A. Reverse Logic
·
B. Assertive Logic
·
C. Negative logic
·
D. Positive Logic
E7A12 (C)
What is the name for logic which
represents a logic "0" as a high voltage?
·
A. Reverse Logic
·
B. Assertive Logic
·
C. Negative logic
·
D. Positive Logic
E7A13 (B)
What is an SR or RS flip-flop?
·
A. A speed-reduced logic device with high power
capability
·
B. A set/reset flip-flop whose output is low
when R is high and S is low, high when S is high and R is low, and
unchanged when both inputs are low
·
C. A speed-reduced logic device with very low
voltage operation capability
·
D. A set/reset flip-flop that toggles whenever
the T input is pulsed, unless both inputs are high
E7A14 (A)
What is a JK flip-flop?
·
A. A flip-flop similar to an RS except that it
toggles when both J and K are high
·
B. A flip-flop utilizing low power, low
temperature Joule-Kelvin devices
·
C. A flip-flop similar to a D flip-flop except
that it triggers on the negative clock edge
·
D. A flip-flop originally developed in Japan
and Korea which has very low power consumption
E7A15 (A)
What is a D flip-flop?
·
A. A flip-flop whose output takes on the state
of the D input when the clock signal transitions from low to high
·
B. A differential class D amplifier used as a
flip-flop circuit
·
C. A dynamic memory storage element
·
D. A flip-flop whose output is capable of both
positive and negative voltage excursions
Group E7B - Amplifiers: Class of
operation; vacuum tube and solid-state circuits; distortion and
intermodulation; spurious and parasitic suppression; microwave
amplifiers
E7B01 (A)
For what portion of a signal cycle does
a Class AB amplifier operate?
·
A. More than 180 degrees but less than 360
degrees
·
B. Exactly 180 degrees
·
C. The entire cycle
·
D. Less than 180 degrees
E7B02 (A)
What is a Class D amplifier?
·
A. A type of amplifier that uses switching
technology to achieve high efficiency
·
B. A low power amplifier using a differential
amplifier for improved linearity
·
C. An amplifier using drift-mode FETs for high
efficiency
·
D. A frequency doubling amplifier
E7B03 (A)
Which of the following forms the output
of a class D amplifier circuit?
·
A. A low-pass filter to remove switching signal
components
·
B. A high-pass filter to compensate for low
gain at low frequencies
·
C. A matched load resistor to prevent damage by
switching transients
·
D. A temperature-compensated load resistor to
improve linearity
E7B04 (A)
Where on the load line of a Class A
common emitter amplifier would bias normally be set?
·
A. Approximately half-way between saturation
and cutoff
·
B. Where the load line intersects the voltage
axis
·
C. At a point where the bias resistor equals
the load resistor
·
D. At a point where the load line intersects
the zero bias current curve
E7B05 (C)
What can be done to prevent unwanted
oscillations in an RF power amplifier?
·
A. Tune the stage for maximum SWR
·
B. Tune both the input and output for maximum
power
·
C. Install parasitic suppressors and/or
neutralize the stage
·
D. Use a phase inverter in the output filter
E7B06 (B)
Which of the following amplifier types
reduces or eliminates even-order harmonics?
·
A. Push-push
·
B. Push-pull
·
C. Class C
·
D. Class AB
E7B07 (D)
Which of the following is a likely
result when a Class C amplifier is used to amplify a single-sideband
phone signal?
·
A. Reduced intermodulation products
·
B. Increased overall intelligibility
·
C. Signal inversion
·
D. Signal distortion and excessive bandwidth
E7B08 (C)
How can an RF power amplifier be
neutralized?
·
A. By increasing the driving power
·
B. By reducing the driving power
·
C. By feeding a 180-degree out-of-phase portion
of the output back to the input
·
D. By feeding an in-phase component of the
output back to the input
E7B09 (D)
Which of the following describes how the
loading and tuning capacitors are to be adjusted when tuning a vacuum
tube RF power amplifier that employs a pi-network output circuit?
·
A. The loading capacitor is set to maximum
capacitance and the tuning capacitor is adjusted for minimum allowable
plate current
·
B. The tuning capacitor is set to maximum
capacitance and the loading capacitor is adjusted for minimum plate
permissible current
·
C. The loading capacitor is adjusted to minimum
plate current while alternately adjusting the tuning capacitor for
maximum allowable plate current
·
D. The tuning capacitor is adjusted for minimum
plate current, while the loading capacitor is adjusted for maximum
permissible plate current
E7B10 (B)
In Figure E7-1, what is the purpose of
R1 and R2?
·
A. Load resistors
·
B. Fixed bias
·
C. Self bias
·
D. Feedback
E7B11 (D)
In Figure E7-1, what is the purpose of
R3?
·
A. Fixed bias
·
B. Emitter bypass
·
C. Output load resistor
·
D. Self bias
E7B12 (C)
What type of circuit is shown in Figure
E7-1?
·
A. Switching voltage regulator
·
B. Linear voltage regulator
·
C. Common emitter amplifier
·
D. Emitter follower amplifier
E7B13 (A)
In Figure E7-2, what is the purpose of
R?
·
A. Emitter load
·
B. Fixed bias
·
C. Collector load
·
D. Voltage regulation
E7B14 (A)
In Figure E7-2, what is the purpose of
C2?
·
A. Output coupling
·
B. Emitter bypass
·
C. Input coupling
·
D. Hum filtering
E7B15 (C)
What is one way to prevent thermal
runaway in a bipolar transistor amplifier?
·
A. Neutralization
·
B. Select transistors with high beta
·
C. Use a resistor in series with the emitter
·
D. All of these choices are correct
E7B16 (A)
What is the effect of intermodulation
products in a linear power amplifier?
·
A. Transmission of spurious signals
·
B. Creation of parasitic oscillations
·
C. Low efficiency
·
D. All of these choices are correct
E7B17 (A)
Why are third-order intermodulation
distortion products of particular concern in linear power amplifiers?
·
A. Because they are relatively close in
frequency to the desired signal
·
B. Because they are relatively far in frequency
from the desired signal
·
C. Because they invert the sidebands causing
distortion
·
D. Because they maintain the sidebands, thus
causing multiple duplicate signals
E7B18 (C)
Which of the following is a
characteristic of a grounded-grid amplifier?
·
A. High power gain
·
B. High filament voltage
·
C. Low input impedance
·
D. Low bandwidth
E7B19 (D)
What is a klystron?
·
A. A high speed multivibrator
·
B. An electron-coupled oscillator utilizing a
pentode vacuum tube
·
C. An oscillator utilizing ceramic elements to
achieve stability
·
D. A VHF, UHF, or microwave vacuum tube that
uses velocity modulation
E7B20 (B)
What is a parametric amplifier?
·
A. A type of bipolar operational amplifier with
excellent linearity derived from use of very high voltage on the
collector
·
B. A low-noise VHF or UHF amplifier relying on
varying reactance for amplification
·
C. A high power amplifier for HF application
utilizing the Miller effect to increase gain
·
D. An audio push-pull amplifier using silicon
carbide transistors for extremely low noise
E7B21 (A)
Which of the following devices is
generally best suited for UHF or microwave power amplifier
applications?
·
A. Field effect transistor
·
B. Nuvistor
·
C. Silicon controlled rectifier
·
D. Triac
Group E7C - Filters and matching
networks: filters and impedance matching networks: types of
networks; types of filters; filter applications; filter
characteristics; impedance matching; DSP filtering
E7C01 (D)
How are the capacitors and inductors of
a low-pass filter Pi-network arranged between the network's input and
output?
·
A. Two inductors are in series between the
input and output, and a capacitor is connected between the two
inductors and ground
·
B. Two capacitors are in series between the
input and output and an inductor is connected between the two
capacitors and ground
·
C. An inductor is connected between the input
and ground, another inductor is connected between the output and
ground, and a capacitor is connected between the input and output
·
D. A capacitor is connected between the input
and ground, another capacitor is connected between the output and
ground, and an inductor is connected between input and output
E7C02 (C)
A T-network with series capacitors and a
parallel shunt inductor has which of the following properties?
·
A. It is a low-pass filter
·
B. It is a band-pass filter
·
C. It is a high-pass filter
·
D. It is a notch filter
E7C03 (A)
What advantage does a Pi-L-network have
over a Pi-network for impedance matching between the final amplifier
of a vacuum-tube transmitter and an antenna?
·
A. Greater harmonic suppression
·
B. Higher efficiency
·
C. Lower losses
·
D. Greater transformation range
E7C04 (C)
How does an impedance-matching circuit
transform a complex impedance to a resistive impedance?
·
A. It introduces negative resistance to cancel
the resistive part of impedance
·
B. It introduces transconductance to cancel the
reactive part of impedance
·
C. It cancels the reactive part of the
impedance and changes the resistive part to a desired value
·
D. Network resistances are substituted for load
resistances and reactances are matched to the resistances
E7C05 (D)
Which filter type is described as having
ripple in the passband and a sharp cutoff?
·
A. A Butterworth filter
·
B. An active LC filter
·
C. A passive op-amp filter
·
D. A Chebyshev filter
E7C06 (C)
What are the distinguishing features of
an elliptical filter?
·
A. Gradual passband rolloff with minimal stop
band ripple
·
B. Extremely flat response over its pass band
with gradually rounded stop band corners
·
C. Extremely sharp cutoff with one or more
notches in the stop band
·
D. Gradual passband rolloff with extreme stop
band ripple
E7C07 (B)
What kind of filter would you use to
attenuate an interfering carrier signal while receiving an SSB
transmission?
·
A. A band-pass filter
·
B. A notch filter
·
C. A Pi-network filter
·
D. An all-pass filter
E7C08 (A)
What kind of digital signal processing
audio filter might be used to remove unwanted noise from a received
SSB signal?
·
A. An adaptive filter
·
B. A crystal-lattice filter
·
C. A Hilbert-transform filter
·
D. A phase-inverting filter
E7C09 (C)
What type of digital signal processing
filter might be used to generate an SSB signal?
·
A. An adaptive filter
·
B. A notch filter
·
C. A Hilbert-transform filter
·
D. An elliptical filter
E7C10 (B)
Which of the following filters would be
the best choice for use in a 2 meter repeater duplexer?
·
A. A crystal filter
·
B. A cavity filter
·
C. A DSP filter
·
D. An L-C filter
E7C11 (D)
Which of the following is the common
name for a filter network which is equivalent to two L networks
connected back-to-back with the inductors in series and the capacitors
in shunt at the input and output?
·
A. Pi-L
·
B. Cascode
·
C. Omega
·
D. Pi
E7C12 (B)
Which of the following describes a Pi-L
network used for matching a vacuum-tube final amplifier to a 50-ohm
unbalanced output?
·
A. A Phase Inverter Load network
·
B. A Pi network with an additional series
inductor on the output
·
C. A network with only three discrete parts
·
D. A matching network in which all components
are isolated from ground
E7C13 (A)
What is one advantage of a Pi matching
network over an L matching network consisting of a single inductor and
a single capacitor?
·
A. The Q of Pi networks can be varied depending
on the component values chosen
·
B. L networks cannot perform impedance
transformation
·
C. Pi networks have fewer components
·
D. Pi networks are designed for balanced input
and output
E7C14 (C)
Which of these modes is most affected by
non-linear phase response in a receiver IF filter?
·
A. Meteor Scatter
·
B. Single-Sideband voice
·
C. Digital
·
D. Video
Group E7D - Power supplies and
voltage regulators
E7D01 (D)
What is one characteristic of a linear
electronic voltage regulator?
·
A. It has a ramp voltage as its output
·
B. It eliminates the need for a pass transistor
·
C. The control element duty cycle is
proportional to the line or load conditions
·
D. The conduction of a control element is
varied to maintain a constant output voltage
E7D02 (C)
What is one characteristic of a
switching electronic voltage regulator?
·
A. The resistance of a control element is
varied in direct proportion to the line voltage or load current
·
B. It is generally less efficient than a linear
regulator
·
C. The control device's duty cycle is
controlled to produce a constant average output voltage
·
D. It gives a ramp voltage at its output
E7D03 (A)
What device is typically used as a
stable reference voltage in a linear voltage regulator?
·
A. A Zener diode
·
B. A tunnel diode
·
C. An SCR
·
D. A varactor diode
E7D04 (B)
Which of the following types of linear
voltage regulator usually make the most efficient use of the primary
power source?
·
A. A series current source
·
B. A series regulator
·
C. A shunt regulator
·
D. A shunt current source
E7D05 (D)
Which of the following types of linear
voltage regulator places a constant load on the unregulated voltage
source?
·
A. A constant current source
·
B. A series regulator
·
C. A shunt current source
·
D. A shunt regulator
E7D06 (C)
What is the purpose of Q1 in the circuit
shown in Figure E7-3?
·
A. It provides negative feedback to improve
regulation
·
B. It provides a constant load for the voltage
source
·
C. It increases the current-handling capability
of the regulator
·
D. It provides D1 with current
E7D07 (A)
What is the purpose of C2 in the circuit
shown in Figure E7-3?
·
A. It bypasses hum around D1
·
B. It is a brute force filter for the output
·
C. To self-resonate at the hum frequency
·
D. To provide fixed DC bias for Q1
E7D08 (C)
What type of circuit is shown in Figure
E7-3?
·
A. Switching voltage regulator
·
B. Grounded emitter amplifier
·
C. Linear voltage regulator
·
D. Emitter follower
E7D09 (D)
What is the purpose of C1 in the circuit
shown in Figure E7-3?
·
A. It resonates at the ripple frequency
·
B. It provides fixed bias for Q1
·
C. It decouples the output
·
D. It filters the supply voltage
E7D10 (A)
What is the purpose of C3 in the circuit
shown in Figure E7-3?
·
A. It prevents self-oscillation
·
B. It provides brute force filtering of the
output
·
C. It provides fixed bias for Q1
·
D. It clips the peaks of the ripple
E7D11 (C)
What is the purpose of R1 in the circuit
shown in Figure E7-3?
·
A. It provides a constant load to the voltage
source
·
B. It couples hum to D1
·
C. It supplies current to D1
·
D. It bypasses hum around D1
E7D12 (D)
What is the purpose of R2 in the circuit
shown in Figure E7-3?
·
A. It provides fixed bias for Q1
·
B. It provides fixed bias for D1
·
C. It decouples hum from D1
·
D. It provides a constant minimum load for Q1
E7D13 (B)
What is the purpose of D1 in the circuit
shown in Figure E7-3?
·
A. To provide line voltage stabilization
·
B. To provide a voltage reference
·
C. Peak clipping
·
D. Hum filtering
E7D14 (C)
What is one purpose of a "bleeder"
resistor in a conventional (unregulated) power supply?
·
A. To cut down on waste heat generated by the
power supply
·
B. To balance the low-voltage filament windings
·
C. To improve output voltage regulation
·
D. To boost the amount of output current
E7D15 (D)
What is the purpose of a "step-start"
circuit in a high-voltage power supply?
·
A. To provide a dual-voltage output for reduced
power applications
·
B. To compensate for variations of the incoming
line voltage
·
C. To allow for remote control of the power
supply
·
D. To allow the filter capacitors to charge
gradually
E7D16 (D)
When several electrolytic filter
capacitors are connected in series to increase the operating voltage
of a power supply filter circuit, why should resistors be connected
across each capacitor?
·
A. To equalize, as much as possible, the
voltage drop across each capacitor
·
B. To provide a safety bleeder to discharge the
capacitors when the supply is off
·
C. To provide a minimum load current to reduce
voltage excursions at light loads
·
D. All of these choices are correct
E7D17 (C)
What is the primary reason that a
high-frequency inverter type high-voltage power supply can be both
less expensive and lighter in weight than a conventional power supply?
·
A. The inverter design does not require any
output filtering
·
B. It uses a diode bridge rectifier for
increased output
·
C. The high frequency inverter design uses much
smaller transformers and filter components for an equivalent power
output
·
D. It uses a large power-factor compensation
capacitor to create "free power" from the unused portion of the AC
cycle
Group E7E - Modulation and
demodulation: reactance, phase and balanced modulators; detectors;
mixer stages; DSP modulation and demodulation; software defined
radio systems
E7E01 (B)
Which of the following can be used to
generate FM phone emissions?
·
A. A balanced modulator on the audio amplifier
·
B. A reactance modulator on the oscillator
·
C. A reactance modulator on the final amplifier
·
D. A balanced modulator on the oscillator
E7E02 (D)
What is the function of a reactance
modulator?
·
A. To produce PM signals by using an
electrically variable resistance
·
B. To produce AM signals by using an
electrically variable inductance or capacitance
·
C. To produce AM signals by using an
electrically variable resistance
·
D. To produce PM signals by using an
electrically variable inductance or capacitance
E7E03 (C)
How does an analog phase modulator
function?
·
A. By varying the tuning of a microphone
preamplifier to produce PM signals
·
B. By varying the tuning of an amplifier tank
circuit to produce AM signals
·
C. By varying the tuning of an amplifier tank
circuit to produce PM signals
·
D. By varying the tuning of a microphone
preamplifier to produce AM signals
E7E04 (A)
What is one way a single-sideband phone
signal can be generated?
·
A. By using a balanced modulator followed by a
filter
·
B. By using a reactance modulator followed by a
mixer
·
C. By using a loop modulator followed by a
mixer
·
D. By driving a product detector with a DSB
signal
E7E05 (D)
What circuit is added to an FM
transmitter to boost the higher audio frequencies?
·
A. A de-emphasis network
·
B. A heterodyne suppressor
·
C. An audio prescaler
·
D. A pre-emphasis network
E7E06 (A)
Why is de-emphasis commonly used in FM
communications receivers?
·
A. For compatibility with transmitters using
phase modulation
·
B. To reduce impulse noise reception
·
C. For higher efficiency
·
D. To remove third-order distortion products
E7E07 (B)
What is meant by the term baseband in
radio communications?
·
A. The lowest frequency band that the
transmitter or receiver covers
·
B. The frequency components present in the
modulating signal
·
C. The unmodulated bandwidth of the transmitted
signal
·
D. The basic oscillator frequency in an FM
transmitter that is multiplied to increase the deviation and carrier
frequency
E7E08 (C)
What are the principal frequencies that
appear at the output of a mixer circuit?
·
A. Two and four times the original frequency
·
B. The sum, difference and square root of the
input frequencies
·
C. The two input frequencies along with their
sum and difference frequencies
·
D. 1.414 and 0.707 times the input frequency
E7E09 (A)
What occurs when an excessive amount of
signal energy reaches a mixer circuit?
·
A. Spurious mixer products are generated
·
B. Mixer blanking occurs
·
C. Automatic limiting occurs
·
D. A beat frequency is generated
E7E10 (A)
How does a diode detector function?
·
A. By rectification and filtering of RF signals
·
B. By breakdown of the Zener voltage
·
C. By mixing signals with noise in the
transition region of the diode
·
D. By sensing the change of reactance in the
diode with respect to frequency
E7E11 (C)
Which of the following types of detector
is well suited for demodulating SSB signals?
·
A. Discriminator
·
B. Phase detector
·
C. Product detector
·
D. Phase comparator
E7E12 (D)
What is a frequency discriminator stage
in a FM receiver?
·
A. An FM generator circuit
·
B. A circuit for filtering two closely adjacent
signals
·
C. An automatic band-switching circuit
·
D. A circuit for detecting FM signals
E7E13 (D)
Which of the following describes a
common means of generating an SSB signal when using digital signal
processing?
·
A. Mixing products are converted to voltages
and subtracted by adder circuits
·
B. A frequency synthesizer removes the unwanted
sidebands
·
C. Emulation of quartz crystal filter
characteristics
·
D. The quadrature method
E7E14 (C)
What is meant by direct conversion when
referring to a software defined receiver?
·
A. Software is converted from source code to
object code during operation of the receiver
·
B. Incoming RF is converted to the IF frequency
by rectification to generate the control voltage for a voltage
controlled oscillator
·
C. Incoming RF is mixed to "baseband" for
analog-to-digital conversion and subsequent processing
·
D. Software is generated in machine language,
avoiding the need for compilers
Group E7F - Frequency markers and
counters: frequency divider circuits; frequency marker generators;
frequency counters
E7F01 (D)
What is the purpose of a prescaler
circuit?
·
A. It converts the output of a JK flip flop to
that of an RS flip-flop
·
B. It multiplies a higher frequency signal so a
low-frequency counter can display the operating frequency
·
C. It prevents oscillation in a low-frequency
counter circuit
·
D. It divides a higher frequency signal so a
low-frequency counter can display the input frequency
E7F02 (B)
Which of the following would be used to
reduce a signal's frequency by a factor of ten?
·
A. A preamp
·
B. A prescaler
·
C. A marker generator
·
D. A flip-flop
E7F03 (A)
What is the function of a decade counter
digital IC?
·
A. It produces one output pulse for every ten
input pulses
·
B. It decodes a decimal number for display on a
seven-segment LED display
·
C. It produces ten output pulses for every
input pulse
·
D. It adds two decimal numbers together
E7F04 (C)
What additional circuitry must be added
to a 100-kHz crystal-controlled marker generator so as to provide
markers at 50 and 25 kHz?
·
A. An emitter-follower
·
B. Two frequency multipliers
·
C. Two flip-flops
·
D. A voltage divider
E7F05 (D)
Which of the following is a technique
for providing high stability oscillators needed for microwave
transmission and reception?
·
A. Use a GPS signal reference
·
B. Use a rubidium stabilized reference
oscillator
·
C. Use a temperature-controlled high Q
dielectric resonator
·
D. All of these choices are correct
E7F06 (C)
What is one purpose of a marker
generator?
·
A. To add audio markers to an oscilloscope
·
B. To provide a frequency reference for a phase
locked loop
·
C. To provide a means of calibrating a
receiver's frequency settings
·
D. To add time signals to a transmitted signal
E7F07 (A)
What determines the accuracy of a
frequency counter?
·
A. The accuracy of the time base
·
B. The speed of the logic devices used
·
C. Accuracy of the AC input frequency to the
power supply
·
D. Proper balancing of the mixer diodes
E7F08 (C)
Which of the following is performed by a
frequency counter?
·
A. Determining the frequency deviation with an
FM discriminator
·
B. Mixing the incoming signal with a WWV
reference
·
C. Counting the number of input pulses
occurring within a specific period of time
·
D. Converting the phase of the measured signal
to a voltage which is proportional to the frequency
E7F09 (A)
What is the purpose of a frequency
counter?
·
A. To provide a digital representation of the
frequency of a signal
·
B. To generate a series of reference signals at
known frequency intervals
·
C. To display all frequency components of a
transmitted signal
·
D. To provide a signal source at a very
accurate frequency
E7F10 (B)
What alternate method of determining
frequency, other than by directly counting input pulses, is used by
some counters?
·
A. GPS averaging
·
B. Period measurement plus mathematical
computation
·
C. Prescaling
·
D. D/A conversion
E7F11 (C)
What is an advantage of a
period-measuring frequency counter over a direct-count type?
·
A. It can run on battery power for remote
measurements
·
B. It does not require an expensive
high-precision time base
·
C. It provides improved resolution of
low-frequency signals within a comparable time period
·
D. It can directly measure the modulation index
of an FM transmitter
Group E7G - Active filters and
op-amps: active audio filters; characteristics; basic circuit
design; operational amplifiers
E7G01 (B)
What primarily determines the gain and
frequency characteristics of an op-amp RC active filter?
·
A. The values of capacitors and resistors built
into the op-amp
·
B. The values of capacitors and resistors
external to the op-amp
·
C. The input voltage and frequency of the
op-amp's DC power supply
·
D. The output voltage and smoothness of the
op-amp's DC power supply
E7G02 (D)
What is the effect of ringing in a
filter?
·
A. An echo caused by a long time delay
·
B. A reduction in high frequency response
·
C. Partial cancellation of the signal over a
range of frequencies
·
D. Undesired oscillations added to the desired
signal
E7G03 (D)
Which of the following is an advantage
of using an op-amp instead of LC elements in an audio filter?
·
A. Op-amps are more rugged
·
B. Op-amps are fixed at one frequency
·
C. Op-amps are available in more varieties than
are LC elements
·
D. Op-amps exhibit gain rather than insertion
loss
E7G04 (C)
Which of the following is a type of
capacitor best suited for use in high-stability op-amp RC active
filter circuits?
·
A. Electrolytic
·
B. Disc ceramic
·
C. Polystyrene
·
D. Paper
E7G05 (A)
How can unwanted ringing and audio
instability be prevented in a multi-section op-amp RC audio filter
circuit?
·
A. Restrict both gain and Q
·
B. Restrict gain, but increase Q
·
C. Restrict Q, but increase gain
·
D. Increase both gain and Q
E7G06 (D)
Which of the following is the most
appropriate use of an op-amp active filter?
·
A. As a high-pass filter used to block RFI at
the input to receivers
·
B. As a low-pass filter used between a
transmitter and a transmission line
·
C. For smoothing power-supply output
·
D. As an audio filter in a receiver
E7G07 (C)
What magnitude of voltage gain can be
expected from the circuit in Figure E7-4 when R1 is 10 ohms and RF is
470 ohms?
·
A. 0.21
·
B. 94
·
C. 47
·
D. 24
E7G08 (D)
How does the gain of an ideal
operational amplifier vary with frequency?
·
A. It increases linearly with increasing
frequency
·
B. It decreases linearly with increasing
frequency
·
C. It decreases logarithmically with increasing
frequency
·
D. It does not vary with frequency
E7G09 (D)
What will be the output voltage of the
circuit shown in Figure E7-4 if R1 is 1000 ohms, RF is 10,000 ohms,
and 0.23 volts dc is applied to the input?
·
A. 0.23 volts
·
B. 2.3 volts
·
C. -0.23 volts
·
D. -2.3 volts
E7G10 (C)
What absolute voltage gain can be
expected from the circuit in Figure E7-4 when R1 is 1800 ohms and RF
is 68 kilohms?
·
A. 1
·
B. 0.03
·
C. 38
·
D. 76
E7G11 (B)
What absolute voltage gain can be
expected from the circuit in Figure E7-4 when R1 is 3300 ohms and RF
is 47 kilohms?
·
A. 28
·
B. 14
·
C. 7
·
D. 0.07
E7G12 (A)
What is an integrated circuit
operational amplifier?
·
A. A high-gain, direct-coupled differential
amplifier with very high input and very low output impedance
·
B. A digital audio amplifier whose
characteristics are determined by components external to the amplifier
·
C. An amplifier used to increase the average
output of frequency modulated amateur signals to the legal limit
·
D. An RF amplifier used in the UHF and
microwave regions
E7G13 (C)
What is meant by the term op-amp
input-offset voltage?
·
A. The output voltage of the op-amp minus its
input voltage
·
B. The difference between the output voltage of
the op-amp and the input voltage required in the immediately following
stage
·
C. The differential input voltage needed to
bring the open-loop output voltage to zero
·
D. The potential between the amplifier input
terminals of the op-amp in an open-loop condition
E7G14 (D)
What is the typical input impedance of
an integrated circuit op-amp?
·
A. 100 ohms
·
B. 1000 ohms
·
C. Very low
·
D. Very high
E7G15 (A)
What is the typical output impedance of
an integrated circuit op-amp?
·
A. Very low
·
B. Very high
·
C. 100 ohms
·
D. 1000 ohms
Group E7H - Oscillators and signal
sources: types of oscillators; synthesizers and phase-locked
loops; direct digital synthesizers
E7H01 (D)
What are three oscillator circuits used
in Amateur Radio equipment?
·
A. Taft, Pierce and negative feedback
·
B. Pierce, Fenner and Beane
·
C. Taft, Hartley and Pierce
·
D. Colpitts, Hartley and Pierce
E7H02 (C)
What condition must exist for a circuit
to oscillate?
·
A. It must have at least two stages
·
B. It must be neutralized
·
C. It must have positive feedback with a gain
greater than 1
·
D. It must have negative feedback sufficient to
cancel the input signal
E7H03 (A)
How is positive feedback supplied in a
Hartley oscillator?
·
A. Through a tapped coil
·
B. Through a capacitive divider
·
C. Through link coupling
·
D. Through a neutralizing capacitor
E7H04 (C)
How is positive feedback supplied in a
Colpitts oscillator?
·
A. Through a tapped coil
·
B. Through link coupling
·
C. Through a capacitive divider
·
D. Through a neutralizing capacitor
E7H05 (D)
How is positive feedback supplied in a
Pierce oscillator?
·
A. Through a tapped coil
·
B. Through link coupling
·
C. Through a neutralizing capacitor
·
D. Through a quartz crystal
E7H06 (B)
Which of the following oscillator
circuits are commonly used in VFOs?
·
A. Pierce and Zener
·
B. Colpitts and Hartley
·
C. Armstrong and deForest
·
D. Negative feedback and balanced feedback
E7H07 (C)
What is a magnetron oscillator?
·
A. An oscillator in which the output is fed
back to the input by the magnetic field of a transformer
·
B. A crystal oscillator in which variable
frequency is obtained by placing the crystal in a strong magnetic
field
·
C. A UHF or microwave oscillator consisting of
a diode vacuum tube with a specially shaped anode, surrounded by an
external magnet
·
D. A reference standard oscillator in which the
oscillations are synchronized by magnetic coupling to a rubidium gas
tube
E7H08 (A)
What is a Gunn diode oscillator?
·
A. An oscillator based on the negative
resistance properties of properly-doped semiconductors
·
B. An oscillator based on the argon gas diode
·
C. A highly stable reference oscillator based
on the tee-notch principle
·
D. A highly stable reference oscillator based
on the hot-carrier effect
E7H09 (A)
What type of frequency synthesizer
circuit uses a phase accumulator, lookup table, digital to analog
converter and a low-pass anti-alias filter?
·
A. A direct digital synthesizer
·
B. A hybrid synthesizer
·
C. A phase locked loop synthesizer
·
D. A diode-switching matrix synthesizer
E7H10 (B)
What information is contained in the
lookup table of a direct digital frequency synthesizer?
·
A. The phase relationship between a reference
oscillator and the output waveform
·
B. The amplitude values that represent a
sine-wave output
·
C. The phase relationship between a
voltage-controlled oscillator and the output waveform
·
D. The synthesizer frequency limits and
frequency values stored in the radio memories
E7H11 (C)
What are the major spectral impurity
components of direct digital synthesizers?
·
A. Broadband noise
·
B. Digital conversion noise
·
C. Spurious signals at discrete frequencies
·
D. Nyquist limit noise
E7H12 (D)
Which of the following is a principal
component of a direct digital synthesizer (DDS)?
·
A. Phase splitter
·
B. Hex inverter
·
C. Chroma demodulator
·
D. Phase accumulator
E7H13 (A)
What is the capture range of a
phase-locked loop circuit?
·
A. The frequency range over which the circuit
can lock
·
B. The voltage range over which the circuit can
lock
·
C. The input impedance range over which the
circuit can lock
·
D. The range of time it takes the circuit to
lock
E7H14 (C)
What is a phase-locked loop circuit?
·
A. An electronic servo loop consisting of a
ratio detector, reactance modulator, and voltage-controlled oscillator
·
B. An electronic circuit also known as a
monostable multivibrator
·
C. An electronic servo loop consisting of a
phase detector, a low-pass filter, a voltage-controlled oscillator,
and a stable reference oscillator
·
D. An electronic circuit consisting of a
precision push-pull amplifier with a differential input
E7H15 (D)
Which of these functions can be
performed by a phase-locked loop?
·
A. Wide-band AF and RF power amplification
·
B. Comparison of two digital input signals,
digital pulse counter
·
C. Photovoltaic conversion, optical coupling
·
D. Frequency synthesis, FM demodulation
E7H16 (B)
Why is the short-term stability of the
reference oscillator important in the design of a phase locked loop
(PLL) frequency synthesizer?
·
A. Any amplitude variations in the reference
oscillator signal will prevent the loop from locking to the desired
signal
·
B. Any phase variations in the reference
oscillator signal will produce phase noise in the synthesizer output
·
C. Any phase variations in the reference
oscillator signal will produce harmonic distortion in the modulating
signal
·
D. Any amplitude variations in the reference
oscillator signal will prevent the loop from changing frequency
E7H17 (C)
Why is a phase-locked loop often used as
part of a variable frequency synthesizer for receivers and
transmitters?
·
A. It generates FM sidebands
·
B. It eliminates the need for a voltage
controlled oscillator
·
C. It makes it possible for a VFO to have the
same degree of frequency stability as a crystal oscillator
·
D. It can be used to generate or demodulate SSB
signals by quadrature phase synchronization
E7H18 (A)
What are the major spectral impurity
components of phase-locked loop synthesizers?
·
A. Phase noise
·
B. Digital conversion noise
·
C. Spurious signals at discrete frequencies
·
D. Nyquist limit noise
Subelement E8 - Signals and Emissions
Group E8A - AC waveforms: sine,
square, sawtooth and irregular waveforms; AC measurements; average
and PEP of RF signals; pulse and digital signal waveforms
E8A01 (A)
What type of wave is made up of a sine
wave plus all of its odd harmonics?
·
A. A square wave
·
B. A sine wave
·
C. A cosine wave
·
D. A tangent wave
E8A02 (C)
What type of wave has a rise time
significantly faster than its fall time (or vice versa)?
·
A. A cosine wave
·
B. A square wave
·
C. A sawtooth wave
·
D. A sine wave
E8A03 (A)
What type of wave is made up of sine
waves of a given fundamental frequency plus all its harmonics?
·
A. A sawtooth wave
·
B. A square wave
·
C. A sine wave
·
D. A cosine wave
E8A04 (C)
What is equivalent to the
root-mean-square value of an AC voltage?
·
A. The AC voltage found by taking the square of
the average value of the peak AC voltage
·
B. The DC voltage causing the same amount of
heating in a given resistor as the corresponding peak AC voltage
·
C. The DC voltage causing the same amount of
heating in a resistor as the corresponding RMS AC voltage
·
D. The AC voltage found by taking the square
root of the average AC value
E8A05 (D)
What would be the most accurate way of
measuring the RMS voltage of a complex waveform?
·
A. By using a grid dip meter
·
B. By measuring the voltage with a D'Arsonval
meter
·
C. By using an absorption wavemeter
·
D. By measuring the heating effect in a known
resistor
E8A06 (A)
What is the approximate ratio of
PEP-to-average power in a typical single-sideband phone signal?
·
A. 2.5 to 1
·
B. 25 to 1
·
C. 1 to 1
·
D. 100 to 1
E8A07 (B)
What determines the PEP-to-average power
ratio of a single-sideband phone signal?
·
A. The frequency of the modulating signal
·
B. The characteristics of the modulating signal
·
C. The degree of carrier suppression
·
D. The amplifier gain
E8A08 (A)
What is the period of a wave?
·
A. The time required to complete one cycle
·
B. The number of degrees in one cycle
·
C. The number of zero crossings in one cycle
·
D. The amplitude of the wave
E8A09 (C)
What type of waveform is produced by
human speech?
·
A. Sinusoidal
·
B. Logarithmic
·
C. Irregular
·
D. Trapezoidal
E8A10 (B)
Which of the following is a
distinguishing characteristic of a pulse waveform?
·
A. Regular sinusoidal oscillations
·
B. Narrow bursts of energy separated by periods
of no signal
·
C. A series of tones that vary between two
frequencies
·
D. A signal that contains three or more
discrete tones
E8A11 (D)
What is one use for a pulse modulated
signal?
·
A. Linear amplification
·
B. PSK31 data transmission
·
C. Multiphase power transmission
·
D. Digital data transmission
E8A12 (D)
What type of information can be conveyed
using digital waveforms?
·
A. Human speech
·
B. Video signals
·
C. Data
·
D. All of these choices are correct
E8A13 (C)
What is an advantage of using digital
signals instead of analog signals to convey the same information?
·
A. Less complex circuitry is required for
digital signal generation and detection
·
B. Digital signals always occupy a narrower
bandwidth
·
C. Digital signals can be regenerated multiple
times without error
·
D. All of these choices are correct
E8A14 (A)
Which of these methods is commonly used
to convert analog signals to digital signals?
·
A. Sequential sampling
·
B. Harmonic regeneration
·
C. Level shifting
·
D. Phase reversal
E8A15 (B)
What would the waveform of a stream of
digital data bits look like on a conventional oscilloscope?
·
A. A series of sine waves with evenly spaced
gaps
·
B. A series of pulses with varying patterns
·
C. A running display of alpha-numeric
characters
·
D. None of the above; this type of signal
cannot be seen on a conventional oscilloscope
Group E8B - Modulation and
demodulation: modulation methods; modulation index and deviation
ratio; pulse modulation; frequency and time division multiplexing
E8B01 (D)
What is the term for the ratio between
the frequency deviation of an RF carrier wave, and the modulating
frequency of its corresponding FM-phone signal?
·
A. FM compressibility
·
B. Quieting index
·
C. Percentage of modulation
·
D. Modulation index
E8B02 (D)
How does the modulation index of a
phase-modulated emission vary with RF carrier frequency (the modulated
frequency)?
·
A. It increases as the RF carrier frequency
increases
·
B. It decreases as the RF carrier frequency
increases
·
C. It varies with the square root of the RF
carrier frequency
·
D. It does not depend on the RF carrier
frequency
E8B03 (A)
What is the modulation index of an
FM-phone signal having a maximum frequency deviation of 3000 Hz either
side of the carrier frequency, when the modulating frequency is 1000
Hz?
·
A. 3
·
B. 0.3
·
C. 3000
·
D. 1000
E8B04 (B)
What is the modulation index of an
FM-phone signal having a maximum carrier deviation of plus or minus 6
kHz when modulated with a 2-kHz modulating frequency?
·
A. 6000
·
B. 3
·
C. 2000
·
D. 1/3
E8B05 (D)
What is the deviation ratio of an
FM-phone signal having a maximum frequency swing of plus-or-minus 5
kHz when the maximum modulation frequency is 3 kHz?
·
A. 60
·
B. 0.167
·
C. 0.6
·
D. 1.67
E8B06 (A)
What is the deviation ratio of an
FM-phone signal having a maximum frequency swing of plus or minus 7.5
kHz when the maximum modulation frequency is 3.5 kHz?
·
A. 2.14
·
B. 0.214
·
C. 0.47
·
D. 47
E8B07 (A)
When using a pulse-width modulation
system, why is the transmitter's peak power greater than its average
power?
·
A. The signal duty cycle is less than 100%
·
B. The signal reaches peak amplitude only when
voice modulated
·
C. The signal reaches peak amplitude only when
voltage spikes are generated within the modulator
·
D. The signal reaches peak amplitude only when
the pulses are also amplitude modulated
E8B08 (D)
What parameter does the modulating
signal vary in a pulse-position modulation system?
·
A. The number of pulses per second
·
B. The amplitude of the pulses
·
C. The duration of the pulses
·
D. The time at which each pulse occurs
E8B09 (B)
What is meant by deviation ratio?
·
A. The ratio of the audio modulating frequency
to the center carrier frequency
·
B. The ratio of the maximum carrier frequency
deviation to the highest audio modulating frequency
·
C. The ratio of the carrier center frequency to
the audio modulating frequency
·
D. The ratio of the highest audio modulating
frequency to the average audio modulating frequency
E8B10 (C)
Which of these methods can be used to
combine several separate analog information streams into a single
analog radio frequency signal?
·
A. Frequency shift keying
·
B. A diversity combiner
·
C. Frequency division multiplexing
·
D. Pulse compression
E8B11 (B)
Which of the following describes
frequency division multiplexing?
·
A. The transmitted signal jumps from band to
band at a predetermined rate
·
B. Two or more information streams are merged
into a "baseband", which then modulates the transmitter
·
C. The transmitted signal is divided into
packets of information
·
D. Two or more information streams are merged
into a digital combiner, which then pulse position modulates the
transmitter
E8B12 (B)
What is digital time division
multiplexing?
·
A. Two or more data streams are assigned to
discrete sub-carriers on an FM transmitter
·
B. Two or more signals are arranged to share
discrete time slots of a data transmission
·
C. Two or more data streams share the same
channel by transmitting time of transmission as the sub-carrier
·
D. Two or more signals are quadrature modulated
to increase bandwidth efficiency
Group E8C - Digital signals: digital
communications modes; CW; information rate vs. bandwidth;
spread-spectrum communications; modulation methods
E8C01 (D)
Which one of the following digital codes
consists of elements having unequal length?
·
A. ASCII
·
B. AX.25
·
C. Baudot
·
D. Morse code
E8C02 (B)
What are some of the differences between
the Baudot digital code and ASCII?
·
A. Baudot uses four data bits per character,
ASCII uses seven or eight; Baudot uses one character as a shift code,
ASCII has no shift code
·
B. Baudot uses five data bits per character,
ASCII uses seven or eight; Baudot uses two characters as shift codes,
ASCII has no shift code
·
C. Baudot uses six data bits per character,
ASCII uses seven or eight; Baudot has no shift code, ASCII uses two
characters as shift codes
·
D. Baudot uses seven data bits per character,
ASCII uses eight; Baudot has no shift code, ASCII uses two characters
as shift codes
E8C03 (C)
What is one advantage of using the ASCII
code for data communications?
·
A. It includes built-in error-correction
features
·
B. It contains fewer information bits per
character than any other code
·
C. It is possible to transmit both upper and
lower case text
·
D. It uses one character as a shift code to
send numeric and special characters
E8C04 (C)
What technique is used to minimize the
bandwidth requirements of a PSK31 signal?
·
A. Zero-sum character encoding
·
B. Reed-Solomon character encoding
·
C. Use of sinusoidal data pulses
·
D. Use of trapezoidal data pulses
E8C05 (C)
What is the necessary bandwidth of a
13-WPM international Morse code transmission?
·
A. Approximately 13 Hz
·
B. Approximately 26 Hz
·
C. Approximately 52 Hz
·
D. Approximately 104 Hz
E8C06 (C)
What is the necessary bandwidth of a
170-hertz shift, 300-baud ASCII transmission?
·
A. 0.1 Hz
·
B. 0.3 kHz
·
C. 0.5 kHz
·
D. 1.0 kHz
E8C07 (A)
What is the necessary bandwidth of a
4800-Hz frequency shift, 9600-baud ASCII FM transmission?
·
A. 15.36 kHz
·
B. 9.6 kHz
·
C. 4.8 kHz
·
D. 5.76 kHz
E8C08 (D)
What term describes a wide-bandwidth
communications system in which the transmitted carrier frequency
varies according to some predetermined sequence?
·
A. Amplitude compandored single sideband
·
B. AMTOR
·
C. Time-domain frequency modulation
·
D. Spread-spectrum communication
E8C09 (A)
Which of these techniques causes a
digital signal to appear as wide-band noise to a conventional
receiver?
·
A. Spread-spectrum
·
B. Independent sideband
·
C. Regenerative detection
·
D. Exponential addition
E8C10 (A)
What spread-spectrum communications
technique alters the center frequency of a conventional carrier many
times per second in accordance with a pseudo-random list of channels?
·
A. Frequency hopping
·
B. Direct sequence
·
C. Time-domain frequency modulation
·
D. Frequency compandored spread-spectrum
E8C11 (B)
What spread-spectrum communications
technique uses a high speed binary bit stream to shift the phase of an
RF carrier?
·
A. Frequency hopping
·
B. Direct sequence
·
C. Binary phase-shift keying
·
D. Phase compandored spread-spectrum
E8C12 (D)
What is the advantage of including a
parity bit with an ASCII character stream?
·
A. Faster transmission rate
·
B. The signal can overpower interfering signals
·
C. Foreign language characters can be sent
·
D. Some types of errors can be detected
E8C13 (B)
What is one advantage of using JT-65
coding?
·
A. Uses only a 65 Hz bandwidth
·
B. The ability to decode signals which have a
very low signal to noise ratio
·
C. Easily copied by ear if necessary
·
D. Permits fast-scan TV transmissions over
narrow bandwidth
Group E8D - Waves, measurements, and
RF grounding: peak-to-peak values, polarization; RF grounding
E8D01 (A)
Which of the following is the easiest
voltage amplitude parameter to measure when viewing a pure sine wave
signal on an analog oscilloscope?
·
A. Peak-to-peak voltage
·
B. RMS voltage
·
C. Average voltage
·
D. DC voltage
E8D02 (B)
What is the relationship between the
peak-to-peak voltage and the peak voltage amplitude of a symmetrical
waveform?
·
A. 0.707:1
·
B. 2:1
·
C. 1.414:1
·
D. 4:1
E8D03 (A)
What input-amplitude parameter is
valuable in evaluating the signal-handling capability of a Class A
amplifier?
·
A. Peak voltage
·
B. RMS voltage
·
C. Average power
·
D. Resting voltage
E8D04 (B)
What is the PEP output of a transmitter
that develops a peak voltage of 30 volts into a 50-ohm load?
·
A. 4.5 watts
·
B. 9 watts
·
C. 16 watts
·
D. 18 watts
E8D05 (D)
If an RMS-reading AC voltmeter reads 65
volts on a sinusoidal waveform, what is the peak-to-peak voltage?
·
A. 46 volts
·
B. 92 volts
·
C. 130 volts
·
D. 184 volts
E8D06 (B)
What is the advantage of using a
peak-reading wattmeter to monitor the output of a SSB phone
transmitter?
·
A. It is easier to determine the correct tuning
of the output circuit
·
B. It gives a more accurate display of the PEP
output when modulation is present
·
C. It makes it easier to detect high SWR on the
feed line
·
D. It can determine if any flat-topping is
present during modulation peaks
E8D07 (C)
What is an electromagnetic wave?
·
A. Alternating currents in the core of an
electromagnet
·
B. A wave consisting of two electric fields at
right angles to each other
·
C. A wave consisting of an electric field and a
magnetic field oscillating at right angles to each other
·
D. A wave consisting of two magnetic fields at
right angles to each other
E8D08 (D)
Which of the following best describes
electromagnetic waves traveling in free space?
·
A. Electric and magnetic fields become aligned
as they travel
·
B. The energy propagates through a medium with
a high refractive index
·
C. The waves are reflected by the ionosphere
and return to their source
·
D. Changing electric and magnetic fields
propagate the energy
E8D09 (B)
What is meant by circularly polarized
electromagnetic waves?
·
A. Waves with an electric field bent into a
circular shape
·
B. Waves with a rotating electric field
·
C. Waves that circle the Earth
·
D. Waves produced by a loop antenna
E8D10 (D)
What type of meter should be used to
monitor the output signal of a voice-modulated single-sideband
transmitter to ensure you do not exceed the maximum allowable power?
·
A. An SWR meter reading in the forward
direction
·
B. A modulation meter
·
C. An average reading wattmeter
·
D. A peak-reading wattmeter
E8D11 (A)
What is the average power dissipated by
a 50-ohm resistive load during one complete RF cycle having a peak
voltage of 35 volts?
·
A. 12.2 watts
·
B. 9.9 watts
·
C. 24.5 watts
·
D. 16 watts
E8D12 (D)
What is the peak voltage of a sinusoidal
waveform if an RMS-reading voltmeter reads 34 volts?
·
A. 123 volts
·
B. 96 volts
·
C. 55 volts
·
D. 48 volts
E8D13 (B)
Which of the following is a typical
value for the peak voltage at a standard U.S. household electrical
outlet?
·
A. 240 volts
·
B. 170 volts
·
C. 120 volts
·
D. 340 volts
E8D14 (C)
Which of the following is a typical
value for the peak-to-peak voltage at a standard U.S. household
electrical outlet?
·
A. 240 volts
·
B. 120 volts
·
C. 340 volts
·
D. 170 volts
E8D15 (A)
Which of the following is a typical
value for the RMS voltage at a standard U.S. household electrical
power outlet?
·
A. 120V AC
·
B. 340V AC
·
C. 85V AC
·
D. 170V AC
E8D16 (A)
What is the RMS value of a 340-volt
peak-to-peak pure sine wave?
·
A. 120V AC
·
B. 170V AC
·
C. 240V AC
·
D. 300V AC
Subelement E9 - Antennas and Feedlines
Group E9A - Isotropic and gain
antennas: definition; used as a standard for comparison; radiation
pattern; basic antenna parameters: radiation resistance and
reactance, gain, beamwidth, efficiency
E9A01 (C)
Which of the following describes an
isotropic antenna?
·
A. A grounded antenna used to measure earth
conductivity
·
B. A horizontally polarized antenna used to
compare Yagi antennas
·
C. A theoretical antenna used as a reference
for antenna gain
·
D. A spacecraft antenna used to direct signals
toward the earth
E9A02 (B)
How much gain does a 1/2-wavelength
dipole in free space have compared to an isotropic antenna?
·
A. 1.55 dB
·
B. 2.15 dB
·
C. 3.05 dB
·
D. 4.30 dB
E9A03 (D)
Which of the following antennas has no
gain in any direction?
·
A. Quarter-wave vertical
·
B. Yagi
·
C. Half-wave dipole
·
D. Isotropic antenna
E9A04 (A)
Why would one need to know the feed
point impedance of an antenna?
·
A. To match impedances in order to minimize
standing wave ratio on the transmission line
·
B. To measure the near-field radiation density
from a transmitting antenna
·
C. To calculate the front-to-side ratio of the
antenna
·
D. To calculate the front-to-back ratio of the
antenna
E9A05 (B)
Which of the following factors may
affect the feed point impedance of an antenna?
·
A. Transmission-line length
·
B. Antenna height, conductor length/diameter
ratio and location of nearby conductive objects
·
C. Constant feed point impedance
·
D. Sunspot activity and time of day
E9A06 (D)
What is included in the total resistance
of an antenna system?
·
A. Radiation resistance plus space impedance
·
B. Radiation resistance plus transmission
resistance
·
C. Transmission-line resistance plus radiation
resistance
·
D. Radiation resistance plus ohmic resistance
E9A07 (C)
What is a folded dipole antenna?
·
A. A dipole one-quarter wavelength long
·
B. A type of ground-plane antenna
·
C. A dipole constructed from one wavelength of
wire forming a very thin loop
·
D. A dipole configured to provide forward gain
E9A08 (A)
What is meant by antenna gain?
·
A. The ratio relating the radiated signal
strength of an antenna in the direction of maximum radiation to that
of a reference antenna
·
B. The ratio of the signal in the forward
direction to that in the opposite direction
·
C. The ratio of the amount of power radiated by
an antenna compared to the transmitter output power
·
D. The final amplifier gain minus the
transmission-line losses, including any phasing lines present
E9A09 (B)
What is meant by antenna bandwidth?
·
A. Antenna length divided by the number of
elements
·
B. The frequency range over which an antenna
satisfies a performance requirement
·
C. The angle between the half-power radiation
points
·
D. The angle formed between two imaginary lines
drawn through the element ends
E9A10 (B)
How is antenna efficiency calculated?
·
A. (radiation resistance / transmission
resistance) x 100%
·
B. (radiation resistance / total resistance) x
100%
·
C. (total resistance / radiation resistance) x
100%
·
D. (effective radiated power / transmitter
output) x 100%
E9A11 (A)
Which of the following choices is a way
to improve the efficiency of a ground-mounted quarter-wave vertical
antenna?
·
A. Install a good radial system
·
B. Isolate the coax shield from ground
·
C. Shorten the radiating element
·
D. Reduce the diameter of the radiating element
E9A12 (C)
Which of the following factors
determines ground losses for a ground-mounted vertical antenna
operating in the 3-30 MHz range?
·
A. The standing-wave ratio
·
B. Distance from the transmitter
·
C. Soil conductivity
·
D. Take-off angle
E9A13 (A)
How much gain does an antenna have
compared to a 1/2-wavelength dipole when it has 6 dB gain over an
isotropic antenna?
·
A. 3.85 dB
·
B. 6.0 dB
·
C. 8.15 dB
·
D. 2.79 dB
E9A14 (B)
How much gain does an antenna have
compared to a 1/2-wavelength dipole when it has 12 dB gain over an
isotropic antenna?
·
A. 6.17 dB
·
B. 9.85 dB
·
C. 12.5 dB
·
D. 14.15 dB
E9A15 (C)
What is meant by the radiation
resistance of an antenna?
·
A. The combined losses of the antenna elements
and feed line
·
B. The specific impedance of the antenna
·
C. The value of a resistance that would
dissipate the same amount of power as that radiated from an antenna
·
D. The resistance in the atmosphere that an
antenna must overcome to be able to radiate a signal
Group E9B - Antenna patterns: E and
H plane patterns; gain as a function of pattern; antenna design;
Yagi antennas
E9B01 (B)
In the antenna radiation pattern shown
in Figure E9-1, what is the 3-dB beamwidth?
·
A. 75 degrees
·
B. 50 degrees
·
C. 25 degrees
·
D. 30 degrees
E9B02 (B)
In the antenna radiation pattern shown
in Figure E9-1, what is the front-to-back ratio?
·
A. 36 dB
·
B. 18 dB
·
C. 24 dB
·
D. 14 dB
E9B03 (B)
In the antenna radiation pattern shown
in Figure E9-1, what is the front-to-side ratio?
·
A. 12 dB
·
B. 14 dB
·
C. 18 dB
·
D. 24 dB
E9B04 (D)
What may occur when a directional
antenna is operated at different frequencies within the band for which
it was designed?
·
A. Feed point impedance may become negative
·
B. The E-field and H-field patterns may reverse
·
C. Element spacing limits could be exceeded
·
D. The gain may change depending on frequency
E9B05 (B)
What usually occurs if a Yagi antenna is
designed solely for maximum forward gain?
·
A. The front-to-back ratio increases
·
B. The front-to-back ratio decreases
·
C. The frequency response is widened over the
whole frequency band
·
D. The SWR is reduced
E9B06 (A)
If the boom of a Yagi antenna is
lengthened and the elements are properly retuned, what usually occurs?
·
A. The gain increases
·
B. The SWR decreases
·
C. The front-to-back ratio increases
·
D. The gain bandwidth decreases rapidly
E9B07 (C)
How does the total amount of radiation
emitted by a directional gain antenna compare with the total amount of
radiation emitted from an isotropic antenna, assuming each is driven
by the same amount of power?
·
A. The total amount of radiation from the
directional antenna is increased by the gain of the antenna
·
B. The total amount of radiation from the
directional antenna is stronger by its front to back ratio
·
C. They are the same
·
D. The radiation from the isotropic antenna is
2.15 dB stronger than that from the directional antenna
E9B08 (A)
How can the approximate beamwidth in a
given plane of a directional antenna be determined?
·
A. Note the two points where the signal
strength of the antenna is 3 dB less than maximum and compute the
angular difference
·
B. Measure the ratio of the signal strengths of
the radiated power lobes from the front and rear of the antenna
·
C. Draw two imaginary lines through the ends of
the elements and measure the angle between the lines
·
D. Measure the ratio of the signal strengths of
the radiated power lobes from the front and side of the antenna
E9B09 (B)
What type of computer program technique
is commonly used for modeling antennas?
·
A. Graphical analysis
·
B. Method of Moments
·
C. Mutual impedance analysis
·
D. Calculus differentiation with respect to
physical properties
E9B10 (A)
What is the principle of a Method of
Moments analysis?
·
A. A wire is modeled as a series of segments,
each having a uniform value of current
·
B. A wire is modeled as a single sine-wave
current generator
·
C. A wire is modeled as a series of points,
each having a distinct location in space
·
D. A wire is modeled as a series of segments,
each having a distinct value of voltage across it
E9B11 (C)
What is a disadvantage of decreasing the
number of wire segments in an antenna model below the guideline of 10
segments per half-wavelength?
·
A. Ground conductivity will not be accurately
modeled
·
B. The resulting design will favor radiation of
harmonic energy
·
C. The computed feed point impedance may be
incorrect
·
D. The antenna will become mechanically
unstable
E9B12 (D)
What is the far-field of an antenna?
·
A. The region of the ionosphere where radiated
power is not refracted
·
B. The region where radiated power dissipates
over a specified time period
·
C. The region where radiated field strengths
are obstructed by objects of reflection
·
D. The region where the shape of the antenna
pattern is independent of distance
E9B13 (B)
What does the abbreviation NEC stand for
when applied to antenna modeling programs?
·
A. Next Element Comparison
·
B. Numerical Electromagnetics Code
·
C. National Electrical Code
·
D. Numeric Electrical Computation
E9B14 (D)
What type of information can be obtained
by submitting the details of a proposed new antenna to a modeling
program?
·
A. SWR vs. frequency charts
·
B. Polar plots of the far-field elevation and
azimuth patterns
·
C. Antenna gain
·
D. All of these choices are correct
Group E9C - Wire and phased vertical
antennas: beverage antennas; terminated and resonant rhombic
antennas; elevation above real ground; ground effects as related
to polarization; take-off angles
E9C01 (D)
What is the radiation pattern of two
1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed
180 degrees out of phase?
·
A. A cardioid
·
B. Omnidirectional
·
C. A figure-8 broadside to the axis of the
array
·
D. A figure-8 oriented along the axis of the
array
E9C02 (A)
What is the radiation pattern of two
1/4-wavelength vertical antennas spaced 1/4-wavelength apart and fed
90 degrees out of phase?
·
A. A cardioid
·
B. A figure-8 end-fire along the axis of the
array
·
C. A figure-8 broadside to the axis of the
array
·
D. Omnidirectional
E9C03 (C)
What is the radiation pattern of two
1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed
in phase?
·
A. Omnidirectional
·
B. A cardioid
·
C. A Figure-8 broadside to the axis of the
array
·
D. A Figure-8 end-fire along the axis of the
array
E9C04 (B)
Which of the following describes a basic
unterminated rhombic antenna?
·
A. Unidirectional; four-sides, each side one
quarter-wavelength long; terminated in a resistance equal to its
characteristic impedance
·
B. Bidirectional; four-sides, each side one or
more wavelengths long; open at the end opposite the transmission line
connection
·
C. Four-sides; an LC network at each corner
except for the transmission connection;
·
D. Four-sides, each of a different physical
length
E9C05 (C)
What are the disadvantages of a
terminated rhombic antenna for the HF bands?
·
A. The antenna has a very narrow operating
bandwidth
·
B. The antenna produces a circularly polarized
signal
·
C. The antenna requires a large physical area
and 4 separate supports
·
D. The antenna is more sensitive to man-made
static than any other type
E9C06 (B)
What is the effect of a terminating
resistor on a rhombic antenna?
·
A. It reflects the standing waves on the
antenna elements back to the transmitter
·
B. It changes the radiation pattern from
bidirectional to unidirectional
·
C. It changes the radiation pattern from
horizontal to vertical polarization
·
D. It decreases the ground loss
E9C07 (A)
What type of antenna pattern over real
ground is shown in Figure E9-2?
·
A. Elevation
·
B. Azimuth
·
C. Radiation resistance
·
D. Polarization
E9C08 (C)
What is the elevation angle of peak
response in the antenna radiation pattern shown in Figure E9-2?
·
A. 45 degrees
·
B. 75 degrees
·
C. 7.5 degrees
·
D. 25 degrees
E9C09 (B)
What is the front-to-back ratio of the
radiation pattern shown in Figure E9-2?
·
A. 15 dB
·
B. 28 dB
·
C. 3 dB
·
D. 24 dB
E9C10 (A)
How many elevation lobes appear in the
forward direction of the antenna radiation pattern shown in Figure
E9-2?
·
A. 4
·
B. 3
·
C. 1
·
D. 7
E9C11 (D)
How is the far-field elevation pattern
of a vertically polarized antenna affected by being mounted over
seawater versus rocky ground?
·
A. The low-angle radiation decreases
·
B. The high-angle radiation increases
·
C. Both the high- and low-angle radiation
decrease
·
D. The low-angle radiation increases
E9C12 (D)
When constructing a Beverage antenna,
which of the following factors should be included in the design to
achieve good performance at the desired frequency?
·
A. Its overall length must not exceed 1/4
wavelength
·
B. It must be mounted more than 1 wavelength
above ground
·
C. It should be configured as a four-sided loop
·
D. It should be one or more wavelengths long
E9C13 (C)
What is the main effect of placing a
vertical antenna over an imperfect ground?
·
A. It causes increased SWR
·
B. It changes the impedance angle of the
matching network
·
C. It reduces low-angle radiation
·
D. It reduces losses in the radiating portion
of the antenna
Group E9D - Directional antennas:
gain; satellite antennas; antenna beamwidth; losses; SWR
bandwidth; antenna efficiency; shortened and mobile antennas;
grounding
E9D01 (C)
How does the gain of an ideal parabolic
dish antenna change when the operating frequency is doubled?
·
A. Gain does not change
·
B. Gain is multiplied by 0.707
·
C. Gain increases by 6 dB
·
D. Gain increases by 3 dB
E9D02 (C)
How can linearly polarized Yagi antennas
be used to produce circular polarization?
·
A. Stack two Yagis, fed 90 degrees out of
phase, to form an array with the respective elements in parallel
planes
·
B. Stack two Yagis, fed in phase, to form an
array with the respective elements in parallel planes
·
C. Arrange two Yagis perpendicular to each
other with the driven elements at the same point on the boom and fed
90 degrees out of phase
·
D. Arrange two Yagis collinear to each other,
with the driven elements fed 180 degrees out of phase
E9D03 (D)
How does the beamwidth of an antenna
vary as the gain is increased?
·
A. It increases geometrically
·
B. It increases arithmetically
·
C. It is essentially unaffected
·
D. It decreases
E9D04 (A)
Why is it desirable for a ground-mounted
satellite communications antenna system to be able to move in both
azimuth and elevation?
·
A. In order to track the satellite as it orbits
the Earth
·
B. So the antenna can be pointed away from
interfering signals
·
C. So the antenna can be positioned to cancel
the effects of Faraday rotation
·
D. To rotate antenna polarization to match that
of the satellite
E9D05 (A)
Where should a high-Q loading coil be
placed to minimize losses in a shortened vertical antenna?
·
A. Near the center of the vertical radiator
·
B. As low as possible on the vertical radiator
·
C. As close to the transmitter as possible
·
D. At a voltage node
E9D06 (C)
Why should an HF mobile antenna loading
coil have a high ratio of reactance to resistance?
·
A. To swamp out harmonics
·
B. To maximize losses
·
C. To minimize losses
·
D. To minimize the Q
E9D07 (A)
What is a disadvantage of using a
multiband trapped antenna?
·
A. It might radiate harmonics
·
B. It radiates the harmonics and fundamental
equally well
·
C. It is too sharply directional at lower
frequencies
·
D. It must be neutralized
E9D08 (B)
What happens to the bandwidth of an
antenna as it is shortened through the use of loading coils?
·
A. It is increased
·
B. It is decreased
·
C. No change occurs
·
D. It becomes flat
E9D09 (D)
What is an advantage of using top
loading in a shortened HF vertical antenna?
·
A. Lower Q
·
B. Greater structural strength
·
C. Higher losses
·
D. Improved radiation efficiency
E9D10 (A)
What is the approximate feed point
impedance at the center of a two-wire folded dipole antenna?
·
A. 300 ohms
·
B. 72 ohms
·
C. 50 ohms
·
D. 450 ohms
E9D11 (D)
What is the function of a loading coil
as used with an HF mobile antenna?
·
A. To increase the SWR bandwidth
·
B. To lower the losses
·
C. To lower the Q
·
D. To cancel capacitive reactance
E9D12 (D)
What is one advantage of using a trapped
antenna?
·
A. It has high directivity in the
higher-frequency bands
·
B. It has high gain
·
C. It minimizes harmonic radiation
·
D. It may be used for multiband operation
E9D13 (B)
What happens to feed point impedance at
the base of a fixed-length HF mobile antenna as the frequency of
operation is lowered?
·
A. The radiation resistance decreases and the
capacitive reactance decreases
·
B. The radiation resistance decreases and the
capacitive reactance increases
·
C. The radiation resistance increases and the
capacitive reactance decreases
·
D. The radiation resistance increases and the
capacitive reactance increases
E9D14 (B)
Which of the following types of
conductor would be best for minimizing losses in a station's RF ground
system?
·
A. A resistive wire, such as a spark plug wire
·
B. A wide flat copper strap
·
C. A cable with 6 or 7 18-gauge conductors in
parallel
·
D. A single 12 or 10-gauge stainless steel wire
E9D15 (C)
Which of the following would provide the
best RF ground for your station?
·
A. A 50-ohm resistor connected to ground
·
B. An electrically-short connection to a metal
water pipe
·
C. An electrically-short connection to 3 or 4
interconnected ground rods driven into the Earth
·
D. An electrically-short connection to 3 or 4
interconnected ground rods via a series RF choke
Group E9E - Matching: matching
antennas to feed lines; power dividers
E9E01 (B)
What system matches a high-impedance
transmission line to a lower impedance antenna by connecting the line
to the driven element in two places spaced a fraction of a wavelength
each side of element center?
·
A. The gamma matching system
·
B. The delta matching system
·
C. The omega matching system
·
D. The stub matching system
E9E02 (A)
What is the name of an antenna matching
system that matches an unbalanced feed line to an antenna by feeding
the driven element both at the center of the element and at a fraction
of a wavelength to one side of center?
·
A. The gamma match
·
B. The delta match
·
C. The epsilon match
·
D. The stub match
E9E03 (D)
What is the name of the matching system
that uses a section of transmission line connected in parallel with
the feed line at the feed point?
·
A. The gamma match
·
B. The delta match
·
C. The omega match
·
D. The stub match
E9E04 (B)
What is the purpose of the series
capacitor in a gamma-type antenna matching network?
·
A. To provide DC isolation between the feed
line and the antenna
·
B. To cancel the inductive reactance of the
matching network
·
C. To provide a rejection notch to prevent the
radiation of harmonics
·
D. To transform the antenna impedance to a
higher value
E9E05 (A)
How must the driven element in a
3-element Yagi be tuned to use a hairpin matching system?
·
A. The driven element reactance must be
capacitive
·
B. The driven element reactance must be
inductive
·
C. The driven element resonance must be lower
than the operating frequency
·
D. The driven element radiation resistance must
be higher than the characteristic impedance of the transmission line
E9E06 (C)
What is the equivalent lumped-constant
network for a hairpin matching system on a 3-element Yagi?
·
A. Pi network
·
B. Pi-L network
·
C. L network
·
D. Parallel-resonant tank
E9E07 (B)
What term best describes the
interactions at the load end of a mismatched transmission line?
·
A. Characteristic impedance
·
B. Reflection coefficient
·
C. Velocity factor
·
D. Dielectric constant
E9E08 (D)
Which of the following measurements is
characteristic of a mismatched transmission line?
·
A. An SWR less than 1:1
·
B. A reflection coefficient greater than 1
·
C. A dielectric constant greater than 1
·
D. An SWR greater than 1:1
E9E09 (C)
Which of these matching systems is an
effective method of connecting a 50-ohm coaxial cable feed line to a
grounded tower so it can be used as a vertical antenna?
·
A. Double-bazooka match
·
B. Hairpin match
·
C. Gamma match
·
D. All of these choices are correct
E9E10 (C)
Which of these choices is an effective
way to match an antenna with a 100-ohm feed point impedance to a
50-ohm coaxial cable feed line?
·
A. Connect a 1/4-wavelength open stub of
300-ohm twin-lead in parallel with the coaxial feed line where it
connects to the antenna
·
B. Insert a 1/2 wavelength piece of 300-ohm
twin-lead in series between the antenna terminals and the 50-ohm feed
cable
·
C. Insert a 1/4-wavelength piece of 75-ohm
coaxial cable transmission line in series between the antenna
terminals and the 50-ohm feed cable
·
D. Connect 1/2 wavelength shorted stub of
75-ohm cable in parallel with the 50-ohm cable where it attaches to
the antenna
E9E11 (B)
What is an effective way of matching a
feed line to a VHF or UHF antenna when the impedances of both the
antenna and feed line are unknown?
·
A. Use a 50-ohm 1:1 balun between the antenna
and feed line
·
B. Use the "universal stub" matching technique
·
C. Connect a series-resonant LC network across
the antenna feed terminals
·
D. Connect a parallel-resonant LC network
across the antenna feed terminals
E9E12 (A)
What is the primary purpose of a phasing
line when used with an antenna having multiple driven elements?
·
A. It ensures that each driven element operates
in concert with the others to create the desired antenna pattern
·
B. It prevents reflected power from traveling
back down the feed line and causing harmonic radiation from the
transmitter
·
C. It allows single-band antennas to operate on
other bands
·
D. It makes sure the antenna has a low-angle
radiation pattern
E9E13 (C)
What is the purpose of a Wilkinson
divider?
·
A. It divides the operating frequency of a
transmitter signal so it can be used on a lower frequency band
·
B. It is used to feed high-impedance antennas
from a low-impedance source
·
C. It divides power equally among multiple
loads while preventing changes in one load from disturbing power flow
to the others
·
D. It is used to feed low-impedance loads from
a high-impedance source
Group E9F - Transmission lines: characteristics of open and shorted feed lines: 1/8 wavelength; 1/4 wavelength; 1/2 wavelength; feed lines: coax versus open-wire; velocity factor; electrical length; transformation characteristics of line terminated in impedance not equal to characteristic impedance
E9F01 (D)
What is the velocity factor of a
transmission line?
·
A. The ratio of the characteristic impedance of
the line to the terminating impedance
·
B. The index of shielding for coaxial cable
·
C. The velocity of the wave in the transmission
line multiplied by the velocity of light in a vacuum
·
D. The velocity of the wave in the transmission
line divided by the velocity of light in a vacuum
E9F02 (C)
Which of the following determines the
velocity factor of a transmission line?
·
A. The termination impedance
·
B. The line length
·
C. Dielectric materials used in the line
·
D. The center conductor resistivity
E9F03 (D)
Why is the physical length of a coaxial
cable transmission line shorter than its electrical length?
·
A. Skin effect is less pronounced in the
coaxial cable
·
B. The characteristic impedance is higher in a
parallel feed line
·
C. The surge impedance is higher in a parallel
feed line
·
D. Electrical signals move more slowly in a
coaxial cable than in air
E9F04 (B)
What is the typical velocity factor for
a coaxial cable with solid polyethylene dielectric?
·
A. 2.70
·
B. 0.66
·
C. 0.30
·
D. 0.10
E9F05 (C)
What is the approximate physical length
of a solid polyethylene dielectric coaxial transmission line that is
electrically one-quarter wavelength long at 14.1 MHz?
·
A. 20 meters
·
B. 2.3 meters
·
C. 3.5 meters
·
D. 0.2 meters
E9F06 (C)
What is the approximate physical length
of an air-insulated, parallel conductor transmission line that is
electrically one-half wavelength long at 14.10 MHz?
·
A. 15 meters
·
B. 20 meters
·
C. 10 meters
·
D. 71 meters
E9F07 (A)
How does ladder line compare to
small-diameter coaxial cable such as RG-58 at 50 MHz?
·
A. Lower loss
·
B. Higher SWR
·
C. Smaller reflection coefficient
·
D. Lower velocity factor
E9F08 (A)
What is the term for the ratio of the
actual speed at which a signal travels through a transmission line to
the speed of light in a vacuum?
·
A. Velocity factor
·
B. Characteristic impedance
·
C. Surge impedance
·
D. Standing wave ratio
E9F09 (B)
What is the approximate physical length
of a solid polyethylene dielectric coaxial transmission line that is
electrically one-quarter wavelength long at 7.2 MHz?
·
A. 10 meters
·
B. 6.9 meters
·
C. 24 meters
·
D. 50 meters
E9F10 (C)
What impedance does a 1/8-wavelength
transmission line present to a generator when the line is shorted at
the far end?
·
A. A capacitive reactance
·
B. The same as the characteristic impedance of
the line
·
C. An inductive reactance
·
D. The same as the input impedance to the final
generator stage
E9F11 (C)
What impedance does a 1/8-wavelength
transmission line present to a generator when the line is open at the
far end?
·
A. The same as the characteristic impedance of
the line
·
B. An inductive reactance
·
C. A capacitive reactance
·
D. The same as the input impedance of the final
generator stage
E9F12 (D)
What impedance does a 1/4-wavelength
transmission line present to a generator when the line is open at the
far end?
·
A. The same as the characteristic impedance of
the line
·
B. The same as the input impedance to the
generator
·
C. Very high impedance
·
D. Very low impedance
E9F13 (A)
What impedance does a 1/4-wavelength
transmission line present to a generator when the line is shorted at
the far end?
·
A. Very high impedance
·
B. Very low impedance
·
C. The same as the characteristic impedance of
the transmission line
·
D. The same as the generator output impedance
E9F14 (B)
What impedance does a 1/2-wavelength
transmission line present to a generator when the line is shorted at
the far end?
·
A. Very high impedance
·
B. Very low impedance
·
C. The same as the characteristic impedance of
the line
·
D. The same as the output impedance of the
generator
E9F15 (A)
What impedance does a 1/2-wavelength
transmission line present to a generator when the line is open at the
far end?
·
A. Very high impedance
·
B. Very low impedance
·
C. The same as the characteristic impedance of
the line
·
D. The same as the output impedance of the
generator
E9F16 (D)
Which of the following is a significant
difference between foam-dielectric coaxial cable and solid-dielectric
cable, assuming all other parameters are the same?
·
A. Reduced safe operating voltage limits
·
B. Reduced losses per unit of length
·
C. Higher velocity factor
·
D. All of these choices are correct
Group E9G - The Smith chart
E9G01 (A)
Which of the following can be calculated
using a Smith chart?
·
A. Impedance along transmission lines
·
B. Radiation resistance
·
C. Antenna radiation pattern
·
D. Radio propagation
E9G02 (B)
What type of coordinate system is used
in a Smith chart?
·
A. Voltage circles and current arcs
·
B. Resistance circles and reactance arcs
·
C. Voltage lines and current chords
·
D. Resistance lines and reactance chords
E9G03 (C)
Which of the following is often
determined using a Smith chart?
·
A. Beam headings and radiation patterns
·
B. Satellite azimuth and elevation bearings
·
C. Impedance and SWR values in transmission
lines
·
D. Trigonometric functions
E9G04 (C)
What are the two families of circles and
arcs that make up a Smith chart?
·
A. Resistance and voltage
·
B. Reactance and voltage
·
C. Resistance and reactance
·
D. Voltage and impedance
E9G05 (A)
What type of chart is shown in Figure
E9-3?
·
A. Smith chart
·
B. Free-space radiation directivity chart
·
C. Elevation angle radiation pattern chart
·
D. Azimuth angle radiation pattern chart
E9G06 (B)
On the Smith chart shown in Figure E9-3,
what is the name for the large outer circle on which the reactance
arcs terminate?
·
A. Prime axis
·
B. Reactance axis
·
C. Impedance axis
·
D. Polar axis
E9G07 (D)
On the Smith chart shown in Figure E9-3,
what is the only straight line shown?
·
A. The reactance axis
·
B. The current axis
·
C. The voltage axis
·
D. The resistance axis
E9G08 (C)
What is the process of normalization
with regard to a Smith chart?
·
A. Reassigning resistance values with regard to
the reactance axis
·
B. Reassigning reactance values with regard to
the resistance axis
·
C. Reassigning impedance values with regard to
the prime center
·
D. Reassigning prime center with regard to the
reactance axis
E9G09 (A)
What third family of circles is often
added to a Smith chart during the process of solving problems?
·
A. Standing-wave ratio circles
·
B. Antenna-length circles
·
C. Coaxial-length circles
·
D. Radiation-pattern circles
E9G10 (D)
What do the arcs on a Smith chart
represent?
·
A. Frequency
·
B. SWR
·
C. Points with constant resistance
·
D. Points with constant reactance
E9G11 (B)
How are the wavelength scales on a Smith
chart calibrated?
·
A. In fractions of transmission line electrical
frequency
·
B. In fractions of transmission line electrical
wavelength
·
C. In fractions of antenna electrical
wavelength
·
D. In fractions of antenna electrical frequency
Group E9H - Effective radiated
power; system gains and losses; radio direction finding antennas
E9H01 (D)
What is the effective radiated power
relative to a dipole of a repeater station with 150 watts transmitter
power output, 2-dB feed line loss, 2.2-dB duplexer loss and 7-dBd
antenna gain?
·
A. 1977 watts
·
B. 78.7 watts
·
C. 420 watts
·
D. 286 watts
E9H02 (A)
What is the effective radiated power
relative to a dipole of a repeater station with 200 watts transmitter
power output, 4-dB feed line loss, 3.2-dB duplexer loss, 0.8-dB
circulator loss and 10-dBd antenna gain?
·
A. 317 watts
·
B. 2000 watts
·
C. 126 watts
·
D. 300 watts
E9H03 (B)
What is the effective isotropic radiated
power of a repeater station with 200 watts transmitter power output,
2-dB feed line loss, 2.8-dB duplexer loss, 1.2-dB circulator loss and
7-dBi antenna gain?
·
A. 159 watts
·
B. 252 watts
·
C. 632 watts
·
D. 63.2 watts
E9H04 (C)
What term describes station output,
including the transmitter, antenna and everything in between, when
considering transmitter power and system gains and losses?
·
A. Power factor
·
B. Half-power bandwidth
·
C. Effective radiated power
·
D. Apparent power
E9H05 (A)
What is the main drawback of a wire-loop
antenna for direction finding?
·
A. It has a bidirectional pattern
·
B. It is non-rotatable
·
C. It receives equally well in all directions
·
D. It is practical for use only on VHF bands
E9H06 (C)
What is the triangulation method of
direction finding?
·
A. The geometric angle of sky waves from the
source are used to determine its position
·
B. A fixed receiving station plots three
headings from the signal source on a map
·
C. Antenna headings from several different
receiving locations are used to locate the signal source
·
D. A fixed receiving station uses three
different antennas to plot the location of the signal source
E9H07 (D)
Why is it advisable to use an RF
attenuator on a receiver being used for direction finding?
·
A. It narrows the bandwidth of the received
signal to improve signal to noise ratio
·
B. It compensates for the effects of an
isotropic antenna, thereby improving directivity
·
C. It reduces loss of received signals caused
by antenna pattern nulls, thereby increasing sensitivity
·
D. It prevents receiver overload which could
make it difficult to determine peaks or nulls
E9H08 (A)
What is the function of a sense antenna?
·
A. It modifies the pattern of a DF antenna
array to provide a null in one direction
·
B. It increases the sensitivity of a DF antenna
array
·
C. It allows DF antennas to receive signals at
different vertical angles
·
D. It provides diversity reception that cancels
multipath signals
E9H09 (C)
Which of the following describes the
construction of a receiving loop antenna?
·
A. A large circularly-polarized antenna
·
B. A small coil of wire tightly wound around a
toroidal ferrite core
·
C. One or more turns of wire wound in the shape
of a large open coil
·
D. A vertical antenna coupled to a feed line
through an inductive loop of wire
E9H10 (D)
How can the output voltage of a
multi-turn receiving loop antenna be increased?
·
A. By reducing the permeability of the loop
shield
·
B. By increasing the number of wire turns in
the loop and reducing the area of the loop structure
·
C. By winding adjacent turns in opposing
directions
·
D. By increasing either the number of wire
turns in the loop or the area of the loop structure or both
E9H11 (B)
What characteristic of a
cardioid-pattern antenna is useful for direction finding?
·
A. A very sharp peak
·
B. A very sharp single null
·
C. Broad band response
·
D. High-radiation angle
E9H12 (B)
What is an advantage of using a shielded
loop antenna for direction finding?
·
A. It automatically cancels ignition noise
pickup in mobile installations
·
B. It is electro-statically balanced against
ground, giving better nulls
·
C. It eliminates tracking errors caused by
strong out-of-band signals
·
D. It allows stations to communicate without
giving away their position
Subelement E0 - Safety: amateur radio
safety practices; RF radiation hazards; hazardous materials
Group E0A - Safety
E0A01 (C)
What, if any, are the differences
between the radiation produced by radioactive materials and the
electromagnetic energy radiated by an antenna?
·
A. There is no significant difference between
the two types of radiation
·
B. Only radiation produced by radioactivity can
injure human beings
·
C. Radioactive materials emit ionizing
radiation, while RF signals have less energy and can only cause
heating
·
D. Radiation from an antenna will damage
unexposed photographic film but ordinary radioactive materials do not
cause this problem
E0A02 (B)
When evaluating RF exposure levels from
your station at a neighbor's home, what must you do?
·
A. Make sure signals from your station are less
than the controlled MPE limits
·
B. Make sure signals from your station are less
than the uncontrolled MPE limits
·
C. You need only evaluate exposure levels on
your own property
·
D. Advise your neighbors of the results of your
tests
E0A03 (C)
Which of the following would be a
practical way to estimate whether the RF fields produced by an amateur
radio station are within permissible MPE limits?
·
A. Use a calibrated antenna analyzer
·
B. Use a hand calculator plus Smith-chart
equations to calculate the fields
·
C. Use an antenna modeling program to calculate
field strength at accessible locations
·
D. All of the choices are correct
E0A04 (C)
When evaluating a site with multiple
transmitters operating at the same time, the operators and licensees
of which transmitters are responsible for mitigating over-exposure
situations?
·
A. Only the most powerful transmitter
·
B. Only commercial transmitters
·
C. Each transmitter that produces 5% or more of
its MPE exposure limit at accessible locations
·
D. Each transmitter operating with a duty-cycle
greater than 50%
E0A05 (B)
What is one of the potential hazards of
using microwaves in the amateur radio bands?
·
A. Microwaves are ionizing radiation
·
B. The high gain antennas commonly used can
result in high exposure levels
·
C. Microwaves often travel long distances by
ionospheric reflection
·
D. The extremely high frequency energy can
damage the joints of antenna structures
E0A06 (D)
Why are there separate electric (E) and
magnetic (H) field MPE limits?
·
A. The body reacts to electromagnetic radiation
from both the E and H fields
·
B. Ground reflections and scattering make the
field impedance vary with location
·
C. E field and H field radiation intensity
peaks can occur at different locations
·
D. All of these choices are correct
E0A07 (B)
How may dangerous levels of carbon
monoxide from an emergency generator be detected?
·
A. By the odor
·
B. Only with a carbon monoxide detector
·
C. Any ordinary smoke detector can be used
·
D. By the yellowish appearance of the gas
E0A08 (C)
What does SAR measure?
·
A. Synthetic Aperture Ratio of the human body
·
B. Signal Amplification Rating
·
C. The rate at which RF energy is absorbed by
the body
·
D. The rate of RF energy reflected from
stationary terrain
E0A09 (C)
Which insulating material commonly used
as a thermal conductor for some types of electronic devices is
extremely toxic if broken or crushed and the particles are
accidentally inhaled?
·
A. Mica
·
B. Zinc oxide
·
C. Beryllium Oxide
·
D. Uranium Hexaflouride
E0A10 (A)
What material found in some electronic
components such as high-voltage capacitors and transformers is
considered toxic?
·
A. Polychlorinated biphenyls
·
B. Polyethylene
·
C. Polytetrafluroethylene
·
D. Polymorphic silicon
E0A11 (C)
Which of the following injuries can
result from using high-power UHF or microwave transmitters?
·
A. Hearing loss caused by high voltage corona
discharge
·
B. Blood clotting from the intense magnetic
field
·
C. Localized heating of the body from RF
exposure in excess of the MPE limits
·
D. Ingestion of ozone gas from the cooling
system
*** End of Qustion Pool ***
Please address any questions, corrections or suggestions regarding this question pool to:
E-mail: Dave@AZARA.org