PRACTICAL CIRCUITS
Oscillators and signal sources: types of oscillators; synthesizers and phase-locked loops; direct digital synthesizers; stabilizing thermal drift; microphonics; high-accuracy oscillators
What are three oscillator circuits used in amateur radio equipment?
Colpitts, Hartley, and Pierce oscillators are three common oscillator designs used to generate a stable signal in radio circuits.
These designs are chosen based on their stability, ease of implementation, and frequency characteristics in RF applications.
Memory tip: the correct answer starts with "C"
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What is a microphonic?
Microphonics or microphony describes the phenomenon wherein certain components in electronic devices transform mechanical vibrations into an undesired electrical signal (noise). The term comes from analogy with a microphone, which is intentionally designed to convert vibrations to electrical signals. In the case of oscillator frequency this mechanical vibration can sometimes cause interference.
More at Wikipedia: https://en.wikipedia.org/wiki/Microphonics
Test tip: the only answer without microphone.
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How is positive feedback supplied in a Hartley oscillator?
The Hartley oscillator is an electronic oscillator circuit in which the oscillation frequency is determined by a tuned circuit consisting of capacitors and inductors, that is, an LC oscillator. The circuit was invented in 1915 by American engineer Ralph Hartley. The distinguishing feature of the Hartley oscillator is that the tuned circuit consists of a single capacitor in parallel with two inductors in series (or a single tapped inductor), and the feedback signal needed for oscillation is taken from the center connection of the two inductors.
http://en.wikipedia.org/wiki/Hartley_oscillator
Test Tip: Hartley is pretty close to Harley, which are notorious for leaking oil. Coil is pretty close to oil.
Test Tip: Hartley has "tl" in it. Tapped L
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How is positive feedback supplied in a Colpitts oscillator?
http://en.wikipedia.org/wiki/Colpitts_oscillator
Think C for Colpitts and Capacitor, and voltages supplied by dividers.
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How is positive feedback supplied in a Pierce oscillator?
The Pierce oscillator is a type of electronic oscillator particularly well-suited for use in piezoelectric crystal oscillator circuits. Named for its inventor, George W. Pierce (1872-1956), the Pierce oscillator is a derivative of the Colpitts oscillator.
Components: a single digital inverter, two resistors, two capacitors, and the quartz crystal, which acts as a highly selective filter element.
http://en.wikipedia.org/wiki/Pierce_oscillator
Memory aids:
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Which of the following oscillator circuits are commonly used in VFOs?
A Colpitts oscillator is a type of LC oscillator, so called because it consists of an inductor, represented by the letter L, and a capacitor, represented by the letter C. It mimics a Hartley oscillator, in that the inductive voltage divider from a pair of coils, or a tapped coil is fed into the LC circuit.
by kd0swn
Hint: Colpitts and Hartley is the only answer with two types of oscillators. A Zener is a diode voltage regulator, Armstrong and De Forest were inventors and all oscillators employ some sort of negative feedback.
Memory tip: ...oscillator circuits are commonly... and Colpitts in the correct answer
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How can an oscillator's microphonic responses be reduced?
Microphonic effects (think of a microphone) are electrical changes in component properties caused by mechanical effects such as vibration, sharp impulses, or the like.
In oscillator circuits, capacitors can slightly change their value due to mechanical stress, leading to changes in the resonant frequency of 'tank' circuits (remember \(\frac{1}{2\pi\sqrt{LC}}\)?) that form the heart of the oscillator. In vacuum tube oscillator designs, mechanical vibration of e.g. the grid or filaments can alter their electrical properties and cause the same thing.
Mechanical insulation / isolation of the oscillator circuit will minimize these microphonic effects.
For more, see these:
https://en.wikipedia.org/wiki/Microphonics
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Which of the following components can be used to reduce thermal drift in crystal oscillators?
Please refer to this link:
http://www.learningaboutelectronics.com/Articles/What-is-a-NPO-ceramic-capacitor
NP0 stands for negative-positive 0 ppm/°C, meaning that for negative or positive shifts in temperature, the capacitance changes 0 part per million (ppm), meaning that it has a flat response across a wide range of temperatures; the capacitance of the NP0 capacitor stays constant (at the same value) despite variations in temperature.
They are also very suitable for oscillator construction in order to compensate for frequency drift with temperature.
Hint: A Negative plus a Positive = 0, or NP0
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What type of frequency synthesizer circuit uses a phase accumulator, lookup table, digital to analog converter, and a low-pass anti-alias filter?
The phrase "digital to analog converter" can only be present in "a direct digital synthesizer." None of the other answers has "Digital" in them.
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What information is contained in the lookup table of a direct digital synthesizer (DDS)?
Direct Digital Synthesis (DDS) is a method of producing a sine wave by generating the wave in digital form and then converting it to analog using a digital-to-analog converter. Rather than computing the value of the sine function on every clock cycle, a lookup table is often used to store precomputed sine values. By stepping through this table at different strides, sine waves of various frequencies can be generated.
Hint: "Direct Digital" in the question, "Desired" in the correct answer. These are the only words that start with a 'D'.
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What are the major spectral impurity components of direct digital synthesizers?
Both the direct digital synthesizer (DDS) and the phase-locked loop (PLL) synthesizer have issues with spectral purity. The major spectral impurity components of direct digital synthesizers are spurious signals at discrete frequencies. (E7H11)
A spurious emission (signals) is any radio frequency not deliberately created or transmitted, especially in a device which normally does create other frequencies. A harmonic or other signal outside a transmitter's assigned channel would be considered a spurious emission.
More at: Wikipedia - Spurious emission
Trick: The question asks about "components", which is plural. The correct answer includes the word "signals" which is also plural. All other answer choices are singular.
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Which of the following must be done to ensure that a crystal oscillator provides the frequency specified by the crystal manufacturer?
Load capacitance is an important specification when using parallel-resonant oscillation mode.
http://www.maximintegrated.com/en/app-notes/index.mvp/id/726
Silly memory aid: provide "Crystal" with a "cap" (capacitance).
or, looks like crystals in the ice cap of the mountain
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Which of the following is a technique for providing highly accurate and stable oscillators needed for microwave transmission and reception?
A standard quartz crystal oscillator is usually of the AT cut type, which has a frequency deviation on the order of several parts per million over a commercial or industrial temperature range. This stability is unsuitable for many demanding applications where maximum deviations of hundreds of parts per billion are required over a large temperature range, or low drift vs. time is required (aging effect). The most basic is a temperature-compensated crystal oscillator, which as the name implies attempts to pull the crystal into tight tolerance by measuring a nearby temperature sensor. The second type mentioned is a rubidium reference, which is a type of atomic reference with good long-term stability characteristics derived from a rubidium-based physics package. Third, a GPS signal reference is one that can be used to create a GPS-disciplined oscillator, which is a type of oscillator that is kept synchronized by using signals derived from atomic references on GPS satellites, with corrections that are traceable to NIST. The result is an oscillator with zero effective long-term drift and good local stability provided by a high-quality ovenized oscillator.
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What is a phase-locked loop circuit?
A phase-locked loop or phase lock loop (PLL) is a control system that generates an output signal whose phase is related to the phase of an input signal. While there are several differing types, it is easy to initially visualize it as an electronic circuit consisting of a variable frequency oscillator and a phase detector.
Hint 1: The correct answer is the only one with "loop" and "phase" in the answer.
Hint 2: A "phase-locked loop" has to "detect" the phase to lock it up. The answer has "phase detector"
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Which of these functions can be performed by a phase-locked loop?
A phase-locked loop or phase lock loop (PLL) is a control system that generates an output signal whose phase is related to the phase of an input signal. While there are several differing types, it is easy to initially visualize as an electronic circuit consisting of a variable frequency oscillator and a phase detector.
Phase-locked loops can be used to demodulate a signal (FM demodulation), recover a signal from a noisy communication channel, and generate a stable frequency at multiples of an input frequency (frequency synthesis).
Hint: Functions (from question), frequency (from correct answer)
Phase-locked Loop (Wikipedia page)
Block diagram of a phase-locked loop
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