The Final Exam is the culmination of the Advanced Amateur Radio course, designed to test your comprehensive understanding and skills across all the essential areas covered in the course, including:

1 Advanced Theory
2 Advanced Components and Circuits
3 Measurements
4 Power Supplies
5 transmitters, neutralisations
6 Receivers
7 Feedlines – Matching and Antenna Systems

By integrating knowledge from these varied but interconnected topics, the exam assesses your readiness to tackle the practical and theoretical challenges of advanced amateur radio, aligning with the requirements for the Spectrum Management Advanced Amateur Radio License.

Essential for those aiming for the Spectrum Management Advanced Amateur Radio License, this exam evaluates your proficiency in everything from basic electronics to the complexities of antenna systems, ensuring a thorough preparation for both the certification exam and practical operation.

0%
0

8.1.8 Final Exam

Advanced Amateur Radio – Final Exam

This exam consolidates your knowledge across critical topics, including electronics theory, operating practices, measurements, and antenna systems, among others, preparing you for the Spectrum Management Advanced Amateur Radio License. It’s your opportunity to demonstrate a comprehensive understanding of the field, crucial for advancing in amateur radio.

1 / 50

Category: Linear and switching voltage regulator circuits

A-004-003-007: What is a three-terminal regulator?

2 / 50

Category: Mixers, frequency multipliers

A-002-009-011: What stage in a transmitter would change a 5.3-MHz input signal to 14.3 MHz?

3 / 50

Category: Transmitters, neutralisations

A-005-003-002: In a simple 2 stage CW transmitter, current to the collector of the transistor in the class C amplifier stage flows through a radio frequency choke (RFC) and a tapped inductor. The RFC, on the tapped inductor side, is also connected to grounded capacitors. The purpose of the RFC and capacitors is to:

4 / 50

Category: Single, double-conversion superheterodyne architectures

A-006-001-011: The advantage of a double conversion receiver over a single conversion receiver is that it:

5 / 50

Category: Transmitters, neutralisations

A-005-003-010: Why is neutralization necessary for some vacuum-tube amplifiers?

6 / 50

Category: RF power amplifiers

A-005-002-011: Harmonics produced in an early stage of a transmitter may be reduced in a later stage by:

7 / 50

Category: FM deviation, modulation index, deviation ratio, deviation meters

A-005-005-004: What is the deviation ratio of an FM phone transmitter having a maximum frequency swing of plus or minus 7.5 kHz and accepting a maximum modulation rate of 3.5 kHz?

8 / 50

Category: spread spectrum – frequency hopping, direct sequences

A-005-009-011: How does the spread-spectrum technique of frequency hopping work?

9 / 50

Category: Performance limitations – instability, image, spurious, etc.s

A-006-005-008: Which of the following is NOT a direct cause of instability in a receiver?

10 / 50

Category: RF, IF amplifiers, selectivity

A-006-003-009: Why are very low noise figures relatively unimportant for a high frequency receiver?

11 / 50

Category: RF power amplifiers

A-005-002-002: The purpose of using a centre-tap return connection on the secondary of transmitting tube’s filament transformer is to:

12 / 50

Category: spread spectrum – frequency hopping, direct sequences

A-005-009-010: Why are received spread-spectrum signals so resistant to interference?

13 / 50

Category: FM deviation, modulation index, deviation ratio, deviation meters

A-005-005-002: What is the modulation index of an FM phone transmitter producing an instantaneous carrier deviation of 6 kHz when modulated with a 2 kHz modulating frequency?

14 / 50

Category: Antenna tuner/transmatch, impedance matching circuits

A-007-001-009: What advantage does a pi-L network have over a pi-network for impedance matching between a vacuum tube linear amplifier and a multiband antenna?

15 / 50

Category: Oscillators, mixers, tunings

A-006-002-004: If the incoming signal to the mixer is 3 600 kHz and the first IF is 9 MHz, at which one of the following frequencies would the local oscillator (LO) operate?

16 / 50

Category: FM transmitter, repeater circuits

A-005-006-006: What audio shaping network is added at an FM transmitter to attenuate the lower audio frequencies?

17 / 50

Category: Detection, audio, automatic gain controls

A-006-004-002: What does a product detector do?

18 / 50

Category: Electrostatic and electromagnetic fields, skin effect

A-001-002-001 What is the result of skin effect?

19 / 50

Category: Oscillators, mixers, tunings

A-006-002-007: In a superheterodyne receiver, a stage before the IF amplifier has a variable capacitor in parallel with a trimmer capacitor and an inductance. The variable capacitor is for:

20 / 50

Category: FM deviation, modulation index, deviation ratio, deviation meters

A-005-005-010: What is the significant bandwidth of an FM-phone transmission having a +/- 5-kHz deviation and a 3-kHz modulating frequency?

21 / 50

Category: Advanced Antenna Design

What is the main advantage of using a Yagi-Uda antenna?

22 / 50

Category: Polarization, helical beam, parabolic antennas

A-007-005-008: A helical-beam antenna with right-hand polarization will best receive signals with:

23 / 50

Category: Antenna tuner/transmatch, impedance matching circuits

A-007-001-002: For an antenna tuner of the “Series” type, which of the following statements is false?

24 / 50

Category: Ground and elevation effects, vertical radiation (take off) angles

A-007-007-009: The impedance at the centre of a dipole antenna more than 3 wavelengths above ground would be nearest to:

25 / 50

Category: Antenna feed arrangements – tee, gamma, stubs

A-007-003-003: What term describes a method of antenna impedance matching that uses a short section of transmission line connected to the antenna transmission line near the antenna and perpendicular to the transmission line?

26 / 50

Category: Time Constant – Capacitance and Inductance

A-001-001-009: What is the time constant of a circuit having a 470 microfarad capacitor in series with a 470 kilohm resistor?

 

27 / 50

Category: Electrostatic and electromagnetic fields, skin effect

A-001-002-005 Why is the resistance of a conductor different for RF currents than for direct currents?

28 / 50

Category: Polarization, helical beam, parabolic antennas

A-007-005-007: A parabolic antenna is very efficient because:

29 / 50

Category: RF power amplifiers

A-005-002-005: In a grounded grid amplifier using a triode vacuum tube, the plate is connected to a radio frequency choke. The other end of the radio frequency choke connects to the:

30 / 50

Category: Parallel resonance

A-001-004-009: What is the resonant frequency of a parallel RLC circuit if R is 4.7 kilohms, L is 200 microhenrys and C is 10 picofarads?

31 / 50

Category: Performance limitations – instability, image, spurious, etc.s

A-006-005-005: What causes intermodulation in an electronic circuit?

32 / 50

Category: Time Constant – Capacitance and Inductance

A-001-001-005: What is meant by “back EMF”?

33 / 50

Category: Oscillator circuits, phase-locked loop (PLL)s

A-005-001-001: How is the positive feedback coupled to the input in a Hartley oscillator?

34 / 50

Category: Linear and switching voltage regulator circuits

A-004-003-005: What type of linear voltage regulator is used in applications requiring a constant load on the unregulated voltage source?

35 / 50

Category: Electrostatic and electromagnetic fields, skin effect

A-001-002-004 Why does most of an RF current flow within a very thin layer under the conductor’s surface?

 

36 / 50

Category: Antenna tuner/transmatch, impedance matching circuits

A-007-001-010: Which type of network provides the greatest harmonic suppression?

37 / 50

Category: FM deviation, modulation index, deviation ratio, deviation meters

A-005-005-001: In an FM phone signal having a maximum frequency deviation of 3000 Hz either side of the carrier frequency, what is the modulation index, when the modulating frequency is 1000 Hz?

38 / 50

Category: AM, single sideband, linearity, two-tone tests

A-005-004-009: What measurement can be made of a single-sideband phone transmitter’s amplifier by performing a two-tone test using an oscilloscope?

39 / 50

Category: Current and voltage distribution on antennas

A-007-004-001: In a half-wave dipole, the distribution of _______ is highest at each end.

40 / 50

Category: Performance limitations – instability, image, spurious, etc.s

A-006-005-011: Which of these measurements is a good indicator of VHF receiver performance in an environment of strong out-of-band signals?

41 / 50

Category: Polarization, helical beam, parabolic antennas

A-007-005-009: One antenna which will respond simultaneously to vertically- and horizontally-polarized signals is the:

42 / 50

Category: crystal calibrator, marking generator, frequency counter

A-003-004-002: What factors limit the accuracy, frequency response and stability of a frequency counter?

43 / 50

Category: Detection, audio, automatic gain controls

A-006-004-004: In a superheterodyne receiver with automatic gain control (AGC), as the strength of the signal increases, the AGC:

44 / 50

Category: Basic Knowledge

What frequency range is considered High Frequency (HF)?

45 / 50

Category: Operational amplifiers, properties, and applications

A-002-008-004: What is meant by the term op-amp offset voltage?

46 / 50

Category: Digital logic elements

A-002-010-005: What is an EXCLUSIVE OR gate?

47 / 50

Category: Quality factor (Q)

A-001-005-008: What is the Q of a parallel RLC circuit, if it is resonant at 3.625 MHz, L is 3 microhenrys and R is 2.2 kilohms?

48 / 50

Category: AC – peak, peak-to-peak, average, RMS

A-003-001-001: What is the easiest amplitude dimension to measure by viewing a pure sine wave on an oscilloscope?

49 / 50

Category: FM transmitter, repeater circuits

A-005-006-011: Intermodulation interference products are not typically associated with which of the following:

50 / 50

Category: Current and voltage distribution on antennas

A-007-004-005: In a half-wave dipole, the highest distribution of ________ occurs at the middle.

Your score is

The average score is 0%

0%

Please enter your name and Callsign and contact info in the ‘Leave a Rating’ section (Click the Rating Stars) to open the Comments Form.

Thanks for your comments!