Category: Receivers - Canada Radio Amateur Quiz License

Questions in this category:

A-006-001-001: What are the advantages of the frequency conversion process in a superheterodyne receiver?
A-006-001-002: What factors should be considered when selecting an intermediate frequency?
A-006-001-003: One of the greatest advantages of the double-conversion over the single-conversion receiver is that it:
A-006-001-004: In a communications receiver, a crystal filter would be located in the:
A-006-001-005: A multiple conversion superheterodyne receiver is more susceptible to spurious responses than a single-conversion receiver because of the:
A-006-001-006: In a dual-conversion superheterodyne receiver what are the respective aims of the first and second conversion:
A-006-001-007: Which stage of a receiver has its input and output circuits tuned to the received frequency?
A-006-001-008: Which stage of a superheterodyne receiver lies between a tuneable stage and a fixed tuned stage?
A-006-001-009: A single conversion receiver with a 9 MHz IF has a local oscillator operating at 16 MHz. The frequency it is tuned to is:
A-006-001-010: A double conversion receiver designed for SSB reception has a beat frequency oscillator and:
A-006-001-011: The advantage of a double conversion receiver over a single conversion receiver is that it:
A-006-002-001: The mixer stage of a superheterodyne receiver is used to:
A-006-002-002: A superheterodyne receiver designed for SSB reception must have a beat-frequency oscillator (BFO) because:
A-006-002-003: The first mixer in the receiver mixes the incoming signal with the local oscillator to produce:
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?
A-006-002-005: The BFO is off-set slightly (500 - 1 500 Hz) from the incoming signal to the detector. This is required:
A-006-002-006: It is very important that the oscillators contained in a superheterodyne receiver are:
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:
A-006-002-008: In a superheterodyne receiver without an RF amplifier, the input to the mixer stage has a variable capacitor in parallel with an inductance. The variable capacitor is for:
A-006-002-009: What receiver stage combines a 14.25-MHz input signal with a 13.795-MHz oscillator signal to produce a 455-kHz intermediate frequency (IF) signal?
A-006-002-010: Which two stages in a superheterodyne receiver have input tuned circuits tuned to the same frequency?
A-006-002-011: The mixer stage of a superheterodyne receiver:
A-006-003-001: What is meant by the noise floor of a receiver?
A-006-003-002: Which of the following is a purpose of the first IF amplifier stage in a receiver?
A-006-003-003: How much gain should be used in the RF amplifier stage of a receiver?
A-006-003-004: What is the primary purpose of an RF amplifier in a receiver?
A-006-003-005: How is receiver sensitivity often expressed for UHF FM receivers?
A-006-003-006: What is the term used for the decibel difference (or ratio) between the largest tolerable receiver input signal (without causing audible distortion products) and the minimum discernible signal (sensitivity)?
A-006-003-007: The lower the receiver noise figure becomes, the greater will be the receiver's _________:
A-006-003-008: The noise generated in a receiver of good design originates in the:
A-006-003-009: Why are very low noise figures relatively unimportant for a high frequency receiver?
A-006-003-010: The term which relates specifically to the amplitude levels of multiple signals that can be accommodated during reception is called:
A-006-003-011: Normally, front-end selectivity is provided by the resonant networks both before and after the RF stage in a superheterodyne receiver. This whole section of the receiver is often referred to as the:
A-006-004-001: What audio shaping network is added at an FM receiver to restore proportionally attenuated lower audio frequencies?
A-006-004-002: What does a product detector do?
A-006-004-003: Distortion in a receiver that only affects strong signals usually indicates a defect in or mis-adjustment of the:
A-006-004-004: In a superheterodyne receiver with automatic gain control (AGC), as the strength of the signal increases, the AGC:
A-006-004-005: The amplified IF signal is applied to the ____________ stage in a superheterodyne receiver:
A-006-004-006: The low-level output of a detector is:
A-006-004-007: The overall output of an AM/CW/SSB receiver can be adjusted by means of manual controls on the receiver or by use of a circuit known as:
A-006-004-008: AGC voltage is applied to the:
A-006-004-009: AGC is derived in a receiver from one of two circuits. Depending on the method used, it is called:
A-006-004-010: Which two variables primarily determine the behaviour of an automatic gain control (AGC) loop?
A-006-004-011: What circuit combines signals from an IF amplifier stage and a beat-frequency oscillator (BFO), to produce an audio signal?
A-006-005-001: What part of a superheterodyne receiver determines the image rejection ratio of the receiver?
A-006-005-002: What is the term for the reduction in receiver sensitivity caused by a strong signal near the received frequency?
A-006-005-003: What causes receiver desensitization?
A-006-005-004: What is one way receiver desensitization can be reduced?
A-006-005-005: What causes intermodulation in an electronic circuit?
A-006-005-006: Which of the following is an important reason for using a VHF intermediate frequency in an HF receiver?
A-006-005-007: Intermodulation interference is produced by:
A-006-005-008: Which of the following is NOT a direct cause of instability in a receiver?
A-006-005-009: Poor frequency stability in a receiver usually originates in the:
A-006-005-010: Poor dynamic range of a receiver can cause many problems when a strong signal appears within or near the front-end bandpass. Which of the following is NOT caused as a direct result?
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?