Subelement D – Display & Control Systems

Question 1

Modern liquid crystal displays have a pixel count of:
A. Greater than 200 pixels per inch.
B. Greater than 50 pixels per inch.
C. Can have no more than 125 pixels per inch.
D. Can implement 1,000 pixels per inch.

Answer 1

A

Question 2

Voltages used in CRT anode circuits are in what range of value?
A. 0.5-10 mV.
B. 10-50 kV.
C. 20-50 mV.
D. 200-1000 V.

Answer 2

B

Question 3

The purpose of the aquadag coating on the CRT is:
A. To protect the electrons from strong electric fields.
B. To act as a second anode.
C. To attract secondary emissions from the CRT screen.
D. All of the above

Answer 3

D

Question 4

LCD patterns are formed when:
A. Current passes through the crystal causing them to align.
B. When voltage is reduced to the raster scan display.
C. When the deflection coils are resonant.
D. When the ships antenna’s bearing is true North.

Answer 4

A

Question 5

In a raster-type display, the electron beam is scanned:
A. From the center of the display to the outer edges.
B. Horizontally and vertically across the CRT face.
C. In a rotating pattern which follows the antenna position.
D. From one specified X-Y coordinate to the next.

Answer 5

B

Question 6

Select the statement, which is most correct regarding a raster scan display.
A. Raster displays are the same as conventional T.V. receivers.
B. The scan rate for a RADAR system is 30 frames per second.
C. Raster scanning is controlled by clock pulses and requires an address bus.
D. Raster scanning is not used in RADAR systems.

Answer 6

C

Question 7

What are the usual input signals to the video amplifier?
A. Low level video.
B. Fixed range rings.
C. Variable range rings.
D. All of the above.

Answer 7

D

Question 8

Which of the following would not normally be an input to the video amplifier?
A. Fixed range rings.
B. Variable range rings.
C. Resolver signal.
D. Low level video.

Answer 8

C

Question 9

The purpose of the sweep amplifier is to:
A. Increase the power of the video amplifier.
B. Drive the CRT deflection coils.
C. Drive the resolver coils.
D. All of the above.

Answer 9

B

Question 10

How many deflection coils are driven by the sweep amplifier?
A. 4
B. 3
C. 2
D. 1

Answer 10

C

Question 11

The main purpose of the sweep generator is to provide:
A. Antenna information.
B. Range rings.
C. Composite video to the cathode of the CRT.
D. The drive signal to the sweep amplifier.

Answer 11

D

Question 12

The main purpose of the video amplifier is to provide:
A. Composite video to the cathode of the CRT.
B. Resolver signals
C. Antenna X and Y signals.
D. Provide the drive signal to the sweep amplifier.

Answer 12

A

Question 13

Timing circuits are used to provide what function?
A. Develop synchronizing pulses for the transmitter system.
B. Synchronize the antenna and display system.
C. Adjust the sea return.
D. Control the North Up presentation.

Answer 13

A

Question 14

The circuit that develops timing signals is called the:
A. Resolver.
B. Synchronizer.
C. Pulse forming network.
D. Video amplifier.

Answer 14

B

Question 15

Which of the following functions is not affected by the timing circuit?
A. Resolver output.
B. Pulse repetition frequency.
C. Sweep drive.
D. Modulation.

Answer 15

A

Question 16

The synchronizer primarily affects the following circuit or function:
A. Mixer.
B. Receiver.
C. Modulator.
D. I.F. Amplifier.

Answer 16

C

Question 17

The output from the synchronizer usually consists of a:
A. Sine wave.
B. Pulse or square wave.
C. Triangle wave.
D. None of the above.

Answer 17

B

Question 18

The sweep drive is initiated by what circuit?
A. Resolver.
B. Sweep amplifier.
C. Video amplifier.
D. Synchronizer.

Answer 18

D

Question 19

Accurate range markers must be developed using very narrow pulses. A circuit that could be used to provide these high-quality pulses for the CRT is a:
A. Ringing oscillator.
B. Monostable multivibrator.
C. Triggered bi-stable multivibrator.
D. Blocking oscillator.

Answer 19

D

Question 20

Range markers are determined by:
A. The CRT.
B. The magnetron.
C. The timer.
D. The video amplifier.

Answer 20

C

Question 21

A gated LC oscillator, operating at 27 kHz, is being used to develop range markers. If each cycle is converted to a range mark, the range between markers will be:
A. 3 nautical miles.
B. 6 nautical miles.
C. 8 nautical miles.
D. 12 nautical miles.

Answer 21

A

Question 22

What would be the frequency of a range ring marker oscillator generating range rings at 10 nautical miles intervals?
A. 24 kHz
B. 16 kHz
C. 12 kHz
D. 8 kHz

Answer 22

D

Question 23

What is the distance between range markers if the controlling oscillator is operating at 20 kHz?
A. 1 nautical miles.
B. 2 nautical miles.
C. 4 nautical miles.
D. 8 nautical miles.

Answer 23

C

Question 24

What would be the frequency of a range ring marker oscillator generating range rings at intervals of 0.25 nautical miles?
A. 161 kHz
B. 322 kHz
C. 644 kHz
D. 1288 kHz

Answer 24

B

Question 25

The variable range marker signal is normally fed to the input of the:
A. Sweep amplifier.
B. Low voltage power supply regulator.
C. Video amplifier.
D. Range ring oscillator.

Answer 25

C

Question 26

The purpose of the variable range marker is to:
A. Provide an accurate means of determining the range of a moving target.
B. Provide a bearing line between own ship and a moving target.
C. Indicate the distance between two different targets.
D. Provide a means of calibrating the fixed range rings.

Answer 26

A

Question 27

How is the variable range marker usually adjusted for accuracy?
A. Adjusting the frequency of the VRM oscillator at the maximum range.
B. Adjusting the frequency of the VRM oscillator at the minimum range.
C. Adjusting the readout to match at the median range ring.
D. The minimum and maximum ranges are aligned with the matching fixed range ring.

Answer 27

D

Question 28

The panel control for the variable range marker is normally a:
A. Variable resistor.
B. Variable inductance.
C. Variable capacitance.
D. Variable resolver.

Answer 28

A

Question 29

An important component of the VRM system is the:
A. Resolver.
B. Interference rejection circuit.
C. STC sensitivity control.
D. Shift register.

Answer 29

D

Question 30

Which of the following statements about the Variable Range Marker system is correct?
A. The VRM is an auxiliary output of the fixed range marker oscillator.
B. The VRM system develops a single adjustable range ring.
C. The VRM system is calibrated using a frequency counter.
D. The VRM system is controlled by a crystal oscillator.

Answer 30

B

Question 31

The purpose of the Electronic Bearing Line is to:
A. Indicate your own vessel’s heading.
B. Measure the bearing of a specific target.
C. Indicate True North.
D. Display the range of a specific target.

Answer 31

B

Question 32

The Electronic Bearing Line is:
A. The ships heading line.
B. A line indicating True North.
C. Used to mark a target to obtain the distance.
D. A line from your own vessel to a specific target.

Answer 32

D

Question 33

Which of the following inputs is required to indicate azimuth?
A. Gyro signals.
B. Synchronizer
C. Resolver.
D. Range rings.

Answer 33

A

Question 34

Bearing information from the gyro is used to provide the following:
A. The heading of the nearest target.
B. Range and bearing to the nearest target.
C. Vessel’s own heading.
D. The range of a selected target.

Answer 34

C

Question 35

Which of the following statements about “true bearing” is correct?
A. The ship’s heading flasher is at the top of the screen.
B. True North is at the top of the screen and the heading flasher indicates the vessel’s course.
C. The true bearing of the nearest target is indicated.
D. The relative bearing of the nearest target is indicated.

Answer 35

B

Question 36

A true bearing presentation appears as follows:
A. The bow of the vessel always points up.
B. The course of the five closest targets is displayed.
C. North is at the top of the display and the ship’s heading flasher indicates the vessel’s course.
D. The course and distance of the closest target is displayed.

Answer 36

C

Question 37

In a digitized RADAR, the 360 degree sweep is divided into how many digitized segments?
A. 16
B. 64
C. 255
D. 4,096

Answer 37

D

Question 38

While troubleshooting a memory problem in a raster scan RADAR, you discover that the “REFRESH” cycle is not operating correctly. What type of memory circuit are you working on?
A. SRAM
B. DRAM
C. ROM
D. PROM

Answer 38

B

Question 39

The term DRAM stands for:
A. Digital refresh access memory.
B. Digital recording access memory.
C. Dynamic random access memory.
D. Digital response area motion.

Answer 39

C

Question 40

How does the dual memory function reduce sea clutter?
A. Successive sweeps are digitized and compared. Only signals appearing in both sweeps are displayed.
B. The dual memory system makes the desired targets larger.
C. It reduces receiver gain for closer signals.
D. It increases receiver gain for real targets.

Answer 40

A

Question 41

How many sequential memory cells with target returns are required to display the target?
A. 1
B. 2
C. 4
D. 8

Answer 41

B

Question 42

What is the primary purpose of display system memory?
A. Eliminate fluctuating targets such as sea return.
B. Display stationary targets.
C. Display the last available targets prior to a power dropout.
D. Store target bearings.

Answer 42

A

Question 43

The ship’s speed indication on the ARPA display can be set manually, but does not change with changes in the vessel’s speed. What other indication would point to a related equipment failure?
A. “GYRO OUT” is displayed on the ARPA indicator.
B. “LOG OUT” is displayed on the ARPA indicator.
C. “TARGET LOST” is displayed on the ARPA indicator.
D. “NORTH UP” is displayed on the ARPA indicator.

Answer 43

B

Question 44

What does the term ARPA/CAS refer to?
A. The basic RADAR system in operation.
B. The device which displays the optional U.S.C.G. Acquisition and Search RADAR information on a CRT display.
C. The device which acquires and tracks targets that are displayed on the RADAR indicator’s CRT.
D. The device which allows the ship to automatically steer around potential hazards.

Answer 44

C

Question 45

Which of the following would not be considered an input to the computer of a collision avoidance system?
A. Own ship’s exact position from navigation satellite receiver.
B. Own ship’s gyrocompass heading.
C. Own ship’s speed from Doppler log.
D. Own ship’s wind velocity from an anemometer.

Answer 45

D

Question 46

Which answer best describes a line on the display which indicates a target’s position. The speed is shown by the length of the line and the course by the direction of the line.
A. Vector.
B. Electronic Bearing Line.
C. Range Marker.
D. Heading Marker.

Answer 46

A

Question 47

What is the purpose or function of the “Trial Mode” used in most ARPA equipment?
A. It selects trial dots for targets’ recent past positions.
B. It is used to display target position and your own ship’s data such as TCPA, CPA, etc.
C. It is used to allow results of proposed maneuvers to be assessed.
D. None of these.

Answer 47

C

Question 48

The ARPA term CPA refers to:
A. The furthest point a ship or target will get to your own ship’s bow.
B. Direction of target relative to your own ship’s direction.
C. The combined detection and processing of targets.
D. The closest point a ship or target will approach your own ship.

Answer 48

D

Question 49

The display power supply provides the following:
A. +18 volts DC for the pulse forming network.
B. 5 volts DC for logic circuits and  12 volts DC for analog and sweep circuits.
C. 80 volts AC for the antenna resolver circuits.
D. All of the above

Answer 49

B

Question 50

The display power supply provides the following:
A. 5 volts DC for logic circuits.
B. (+/-) 12 volts DC for analog and sweep circuits.
C. 17kV DC for the CRT HV anode.
D. All of the above

Answer 50

D

Question 51

In a display system power supply what is the purpose of the chopper?
A. It acts as an electronic switch between the raw DC output and the inverter.
B. It interrupts the AC supply line at a varying rate depending on the load demands.
C. It regulates the 5 volt DC output.
D. It pre-regulates the AC input.

Answer 51

A

Question 52

In a display system power supply, what is the purpose of the inverter?
A. Inverts the polarity of the DC voltage applied to the voltage regulators.
B. Provides the dual polarity 12 volt DC supply.
C. Acts as the voltage regulator for the 5 volt DC supply.
D. Produces the pulsed DC input voltage to the power transformer.

Answer 52

D

Question 53

What would be a common switching frequency for a display system power supply?
A. 18 kHz
B. 120 Hz
C. 60 kHz
D. 120 kHz

Answer 53

A

Question 54

What display system power supply output would use a tripler circuit?
A. The logic circuit supply.
B. The sweep circuit supply.
C. The HV supply for the CRT anode.
D. The resolver drive

Answer 54

C

Question 55

The heading flash is a momentary intensification of the sweep line on the PPI presentation. Its function is to:
A. Alert the operator when a target is within range.
B. Alert the operator when shallow water is near.
C. Inform the operator of the dead-ahead position on the PPI scope.
D. Inform the operator when the antenna is pointed to the rear of the ship.

Answer 55

C

Question 56

The major advantage of digitally processing a RADAR signal is:
A. Digital readouts appear on the RADAR display.
B. Enhancement of weak target returns.
C. An improved operator interface.
D. Rectangular display geometry is far easier to read on the CRT.

Answer 56

B

Question 57

In order to ensure that a practical filter is able to remove undesired components from the output of an analog-to-digital converter, the sampling frequency should be:
A. The same as the lowest component of the analog frequency.
B. Two times the highest component of the analog frequency.
C. Greater than two times the highest component of the sampled frequency.
D. The same as the highest component of the sampled frequency.

Answer 57

C

Question 58

Bearing resolution is:
A. The ability to distinguish two adjacent targets of equal distance.
B. The ability to distinguish two targets of different distances.
C. The ability to distinguish two targets of different elevations.
D. The ability to distinguish two targets of different size.

Answer 58

A

Question 59

The output of an RC integrator, when driven by a square wave with a period of much less than one time constant is a:
A. Sawtooth wave.
B. Sine wave.
C. Series of narrow spikes.
D. Triangle wave.

Answer 59

D

Question 60

How do you eliminate stationary objects such as trees, buildings, bridges, etc., from the PPI presentation?
A. Remove the discriminator from the unit.
B. Use a discriminator as a second detector.
C. Calibrate the IF circuit.
D. Calibrate the local oscillator.

Answer 60

B