Crystal oscillator

Crystal Oscillator

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Crystal oscillator

A crystal oscillator is an electronic circuit

Electronic circuit

An electronic circuit is a closed path formed by the interconnection of electronic components through which an electric current can flow. The electronic circuits may be physically constructed using any number of methods....
that uses the mechanical resonance

Resonance

In physics, resonance is the tendency of a system to oscillate at maximum amplitude at certain Frequency, known as the system's resonance frequencies ....
of a vibrating crystal

Crystal

A crystal or crystalline solid is a solid material whose constituent atoms, molecules, or ions are arranged in an orderly repeating pattern extending in all three spatial dimensions....
of piezoelectric material

Piezoelectricity

Frequency

Frequency is the number of occurrences of a repeating event per unit time. It is also referred to as temporal frequency.The period is the duration of one cycle in a repeating event, so the period is the reciprocal of the frequency....
. This frequency is commonly used to keep track of time (as in quartz wristwatches

Quartz clock

A quartz clock is a clock that uses an electronic oscillator that is regulated by a quartz crystal to keep time. This crystal oscillator creates a signal with very precise frequency, so that quartz clocks are at least an order of magnitude more accurate than good mechanical clocks....
), to provide a stable clock signal

Clock signal

In electronics and especially Synchronous logic digital circuits, a clock signal is a Signalling used to coordinate the actions of two or more Electronic circuit....
for digital

Digital

A digital system uses discrete values, usually but not always symbolized numerically to represent information for input, processing, transmission, storage, etc....
integrated circuits, and to stabilize frequencies for radio transmitters/receivers.

traditional and most common type of piezoelectric resonator used in electronics was the quartz crystal, so oscillator circuits designed around them were called "crystal oscillators".

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Encyclopedia

A crystal oscillator is an electronic circuit

Electronic circuit

Resonance

In physics, resonance is the tendency of a system to oscillate at maximum amplitude at certain Frequency, known as the system's resonance frequencies ....
of a vibrating crystal

Crystal

Piezoelectricity

Frequency

Quartz clock

Clock signal

In electronics and especially Synchronous logic digital circuits, a clock signal is a Signalling used to coordinate the actions of two or more Electronic circuit....
for digital

Digital

History

The traditional and most common type of piezoelectric resonator used in electronics was the quartz crystal, so oscillator circuits designed around them were called "crystal oscillators". Piezoelectricity was discovered by Jacques

Jacques Curie

Paul-Jacques Curie was a France physicist and professor at the University of Montpellier. He and his brother, Pierre Curie, studied pyroelectricity in the 1880s, leading to their discovery of some of the mechanisms behind piezoelectricity....
and Pierre Curie

Pierre Curie

Pierre Curie was a French Physics, a pioneer in crystallography, magnetism, piezoelectricity and radioactivity, and Nobel laureate. In 1903 he received the Nobel Prize in Physics with his wife, Marie Curie, and Henri Becquerel, "in recognition of the extraordinary services they have rendered by their joint researches on the radiation phe...
in 1880. Paul Langevin

Paul Langevin

Paul Langevin was a prominent France physicist who developed Langevin dynamics and the Langevin equation. He was one of the founders of the Comit? de vigilance des intellectuels antifascistes, an antifascist organization created in the wake of the February 6, 1934 far right riots....
first investigated quartz resonators for use in sonar

Sonar

Sonar is a technique that uses sound propagation to navigation, communicate with or detect other vessels. There are two kinds of sonar: active and passive....
during World War I. The first crystal controlled oscillator

Electronic oscillator

An electronic oscillator is an electronic circuit that produces a repetitive electronic signal, often a sine wave or a square wave.A low frequency oscillation is an electronic oscillator that generates an alternating current waveform at a frequency below ?200 Hz....
, using a crystal of Rochelle salt, was built in 1917 and patented in 1918 by Alexander M. Nicholson at Bell Telephone Laboratories, although his priority was disputed by Walter Guyton Cady

Walter Guyton Cady

Dr. Walter Guyton Cady was a noted American physics and electrical engineer. He was a pioneer in piezoelectricity, and in 1921 developed the first crystal oscillator....
. Cady built the first quartz crystal oscillator in 1921. Other early innovators in quartz crystal oscillators include G. W. Pierce

G. W. Pierce

George Washington Pierce was an United States physicist. He was a professor of physics at Harvard University and inventor in the development of electronic telecommunications....
and Louis Essen

Louis Essen

Louis Essen was an England physicist whose most notable achievements were in the accuracy and precision measurement of time and the determination of the speed of light....
.

Quartz crystal oscillators were developed for high-stability frequency references during the 1920's and 1930's. By 1926 quartz crystals were used to control the frequency of radio broadcasting stations and were popular with amateur radio operators. A number of firms started producing quartz crystals for electronic use during this time. Using what are now considered primitive methods, about 100,000 crystal units were produced in the United States during 1939. During WW2, demand for accurate frequency control of military radio equipment spurred rapid development of the crystal manufacturing industry. Suitable quartz became a critical war material, with much of it imported from Brazil.

Although crystal oscillators still most commonly use quartz crystals, devices using other materials are becoming more common, such as ceramic resonator

Ceramic resonator

Description A ceramic resonator is an electronic component that can produce oscillation at a specific frequency when combined with other appropriate components....
s.

Operation

A crystal

Crystal

Solid

A solid object is in the states of matter characterized by resistance to deformation and changes of volume. In other words, it has high values both of Young's modulus and of shear modulus; this contrasts e.g....
in which the constituent atom

Atom

|-! bgcolor=gray | Properties|-||}The atom is a basic unit of matter consisting of a dense, central atomic nucleus surrounded by a electron cloud of electric charge electrons....
s, molecule

Molecule

In chemistry, a molecule is defined as a sufficiently stable, electric charge neutral group of at least two atoms in a definite arrangement held together by very strong chemical bonds....
s, or ion

Ion

An ion is an atom or molecule which has lost or gained one or more electrons, giving it a positive or negative electrical charge. According to the Bohr_model this will be from or in the outer shield 'n'....
s are packed in a regularly ordered, repeating pattern extending in all three spatial dimensions.

Almost any object made of an elastic material could be used like a crystal, with appropriate transducers, since all objects have natural resonant

Resonance

In physics, resonance is the tendency of a system to oscillate at maximum amplitude at certain Frequency, known as the system's resonance frequencies ....
frequencies of vibration. For example, steel

Steel

Steel is an alloy consisting mostly of iron, with a carbon content between 0.2% and 2.14% by weight , depending on grade. Carbon is the most cost-effective alloying material for iron, but various other alloying elements are used such as manganese, chromium, vanadium, and tungsten....
is very elastic and has a high speed of sound. It was often used in mechanical filters before quartz. The resonant frequency depends on size, shape, elasticity

Elasticity (physics)

In physics, elasticity is the physical property of a material when it deforms under stress , but returns to its original shape when the stress is removed....
, and the speed of sound in the material. High-frequency crystals are typically cut in the shape of a simple, rectangular plate. Low-frequency crystals, such as those used in digital watches, are typically cut in the shape of a tuning fork

Tuning fork

A tuning fork is an Musical acoustics resonator in the form of a two-pronged fork with the Tine formed from a U-shaped bar of Elastic deformation metal ....
. For applications not needing very precise timing, a low-cost ceramic resonator

Ceramic resonator

Description A ceramic resonator is an electronic component that can produce oscillation at a specific frequency when combined with other appropriate components....
is often used in place of a quartz crystal.

When a crystal of quartz

Quartz

Quartz is the most abundant mineral in the Earth's continental crust . It is made up of a Crystal structure of silica tetrahedra. Quartz has a hardness of 7 on the Mohs scale and a density of 2.65 g/cm?....
is properly cut and mounted, it can be made to distort in an electric field by applying a voltage

Voltage

Electrical tension is the potential difference between two points of an electrical or electronic circuit, expressed in volts. It is the measurement of the potential for an electric field to cause an electric current in an electrical conductor....
to an electrode

Electrode

An electrode is an electrical conductor used to make contact with a nonmetallic part of a Electronic circuit . The word was coined by the scientist Michael Faraday from the Greek language words elektron and hodos, a way....
near or on the crystal. This property is known as piezoelectricity

Piezoelectricity

Piezoelectricity is the ability of some materials to generate an electric potential in response to applied mechanical Stress . This may Piezoelectricity#Crystal classes of a separation of electric charge across the crystal lattice....
. When the field is removed, the quartz will generate an electric field as it returns to its previous shape, and this can generate a voltage. The result is that a quartz crystal behaves like a circuit composed of an inductor

Inductor

An inductor is a Passive component Electronic component that can store energy in a magnetic field created by the electric current passing through it....
, capacitor

Capacitor

A capacitor or condenser is a Passive component electronic component consisting of a pair of electrical conductor separated by a dielectric....
and resistor

Resistor

|- align = "center"||width = "25"|| |- align = "center"||| Potentiometer|- align = "center"| || |- align = "top"| Resistor|| Variable resistor...
, with a precise resonant frequency. (See RLC circuit

RLC circuit

An RLC circuit is an electrical circuit consisting of a resistor , an inductor , and a capacitor , connected in series or in parallel. This configuration forms a harmonic oscillator....
.)

Quartz has the further advantage that its elastic constants and its size change in such a way that the frequency dependence on temperature can be very low. The specific characteristics will depend on the mode of vibration and the angle at which the quartz is cut (relative to its crystallographic axes). Therefore, the resonant frequency of the plate, which depends on its size, will not change much, either. This means that a quartz clock, filter or oscillator will remain accurate. For critical applications the quartz oscillator is mounted in a temperature-controlled container, called a crystal oven

Crystal oven

File:Ocxo.jpgA crystal oven is a temperature-controlled chamber used to maintain the quartz crystal in electronic crystal oscillators at a constant temperature, in order to prevent changes in the frequency due to variations in ambient temperature....
, and can also be mounted on shock absorbers to prevent perturbation by external mechanical vibrations.

Quartz timing crystals are manufactured for frequencies from a few tens of kilohertz to tens of megahertz. More than two billion (2×10⁹) crystals are manufactured annually. Most are small devices for consumer devices such as wristwatches, clock

Clock

A clock is an instrument used for indicating and maintaining the time and passage thereof. The word clock is derived ultimately from the Celtic languages words clagan and clocca meaning "bell"....
s, radio

Radio

Radio is the transmission of signals, by modulation of electromagnetic radiation with frequency below those of visible light.Electromagnetic radiation radio propagation by means of oscillating electromagnetic fields that pass through the air and the vacuum of space....
s, computer

Computer

A computer is a machine that manipulates Data according to a list of Code .The first devices that resemble modern computers date to the mid-20th century , although the computer concept and various machines similar to computers existed earlier....
s, and cellphones. Quartz crystals are also found inside test and measurement equipment, such as counters, signal generator

Signal generator

A signal generator, also known variously as a test signal generator, function generator, tone generator, arbitrary waveform generator, digital pattern generator or frequency generator is an Electronics device that generates repeating or non-repeating electronic signals ....
s, and oscilloscope

Oscilloscope

An oscilloscope is a type of electronic test instrument that allows signal voltages to be viewed, usually as a two-dimensional graph of one or more electrical potential differences plotted as a function of time or of some other voltage ....
s.

Modeling

Electrical model

A quartz crystal can be modelled as an electrical network with a low impedance

Electrical impedance

Electrical impedance, or simply impedance, describes a measure of opposition to a sinusoidal alternating current . Electrical impedance extends the concept of Electrical resistance to AC circuits, describing not only the relative amplitudes of the voltage and Electric current, but also the relative Phase ....
(series) and a high impedance

Electrical impedance

Laplace transform

In mathematics, the Laplace transform is one of the best known and most widely used integral transforms. It is commonly used to produce an easily solvable algebraic equation from an ordinary differential equation....
) the impedance of this network can be written as:

or,

where s is the complex frequency , is the series resonant frequency in radian

Radian

The radian is a unit of plane angle, equal to 180/pi Degree , or about 57.2958 degrees, or about 57?17'45?. It is the standard unit of angular measurement in all areas of mathematics beyond the elementary level....
s per second and is the parallel resonant frequency in radians per second.

Adding additional capacitance across a crystal will cause the parallel resonance to shift downward. This can be used to adjust the frequency at which a crystal oscillator oscillates. Crystal manufacturers normally cut and trim their crystals to have a specified resonant frequency with a known 'load' capacitance added to the crystal. For example, a 6 pF 32 kHz crystal has a parallel resonance frequency of 32,768 Hz when a 6.0 pF capacitor is placed across the crystal. Without this capacitance, the resonance frequency is higher than 32,768 Hz.

Resonance modes

A quartz crystal provides both series and parallel resonance. The series resonance is a few kilohertz lower than the parallel one. Crystals below 30 MHz are generally operated between series and parallel resonance, which means that the crystal appears as an inductive reactance in operation. Any additional circuit capacitance will thus pull the frequency down. For a parallel resonance crystal to operate at its specified frequency, the electronic circuit has to provide a total parallel capacitance as specified by the crystal manufacturer.

Crystals above 30 MHz (up to >200 MHz) are generally operated at series resonance where the impedance appears at its minimum and equal to the series resistance. For these crystals the series resistance is specified (<100 O) instead of the parallel capacitance. To reach higher frequencies, a crystal can be made to vibrate at one of its overtone

Overtone

An overtone is a natural resonance of a system. Systems described by overtones are often sound systems, for example, blown pipes or plucked strings....
modes, which occur at multiples of the fundamental resonant frequency. Only odd numbered overtones are used. Such a crystal is referred to as a 3rd, 5th, or even 7th overtone crystal. To accomplish this, the oscillator circuit usually includes additional LC circuits to select the wanted overtone.

Temperature effects

A crystal's frequency characteristic depends on the shape or 'cut' of the crystal. A tuning fork crystal is usually cut such that its frequency over temperature is a parabolic curve centered around 25 °C. This means that a tuning fork crystal oscillator will resonate close to its target frequency at room temperature, but will slow down when the temperature either increases or decreases from room temperature. A common parabolic coefficient for a 32 kHz tuning fork crystal is -0.04 ppm/°C².

In a real application, this means that a clock built using a regular 32 kHz tuning fork crystal will keep good time at room temperature, lose 2 minutes per year at 10 degrees Celsius above (or below) room temperature and lose 8 minutes per year at 20 degrees Celsius above (or below) room temperature due to the quartz crystal.

Electrical oscillators

The crystal oscillator circuit sustains oscillation by taking a voltage signal from the quartz resonator, amplifying it, and feeding it back to the resonator. The rate of expansion and contraction of the quartz is the resonant

Resonance

In physics, resonance is the tendency of a system to oscillate at maximum amplitude at certain Frequency, known as the system's resonance frequencies ....
frequency, and is determined by the cut and size of the crystal. When the energy of the generated output frequencies matches the losses in the circuit, an oscillation can be sustained.

A regular timing crystal contains two electrically conductive plates, with a slice or tuning fork of quartz crystal sandwiched between them. During startup, the circuit around the crystal applies a random noise AC

Alternating current

In alternating current the movement of electric charge periodically reverses direction. An electric charge would for instance move forward, then backward, then forward, then backward, over and over again....
signal to it, and purely by chance, a tiny fraction of the noise will be at the resonant frequency of the crystal. The crystal will therefore start oscillating in synchrony with that signal. As the oscillator amplifies the signals coming out of the crystal, the signals in the crystal's frequency band will become stronger, eventually dominating the output of the oscillator. Natural resistance in the circuit and in the quartz crystal filter

Electronic filter

Electronic filters are electronic circuits which perform signal processing functions, specifically to remove unwanted frequency components from the signal and/or to enhance wanted ones....
out all the unwanted frequencies.

The output frequency of a quartz oscillator can be either the fundamental resonance or a multiple of the resonance

Harmonic

In acoustics and telecommunication, a harmonic of a wave is a component frequency of the Signalling that is an integer multiple of the fundamental frequency....
, called an overtone

Overtone

An overtone is a natural resonance of a system. Systems described by overtones are often sound systems, for example, blown pipes or plucked strings....
frequency. High frequency crystals are often designed to operate at third, fifth, or seventh overtones.

A major reason for the wide use of crystal oscillators is their high Q factor

Q factor

In physics and engineering the quality factor or Q factor is a dimensionless parameter that compares the time constant for decay of an oscillating physical system's amplitude to its oscillation Frequency....
for a quartz oscillator ranges from 10⁴ to 10⁶, compared to perhaps 10² for an LC oscillator. The maximum Q for a high stability quartz oscillator can be estimated as Q = 1.6 × 10⁷/f, where f is the resonance frequency in megahertz.

One of the most important traits of quartz crystal oscillators is that they can exhibit very low phase noise

Phase noise

Phase noise is the frequency domain representation of rapid, short-term, random fluctuations in the phase of a wave, caused by time domain instabilities ....
. In many oscillators, any spectral energy at the resonant frequency will be amplified by the oscillator, resulting in a collection of tones at different phases. In a crystal oscillator, the crystal mostly vibrates in one axis. Therefore, only one phase is dominant. This property of low phase noise makes them particularly useful in telecommunications where stable signals are needed, and in scientific equipment where very precise time references are needed.

Environmental changes of temperature, humidity, pressure, and vibration can change the resonant frequency of a quartz crystal, but there are several designs that reduce these environmental effects. These include the TCXO, MCXO, and OCXO (defined below). These designs (particularly the OCXO) often produce devices with excellent short-term stability. The limitations in short-term stability are due mainly to noise from electronic components in the oscillator circuits. Long term stability is limited by aging of the crystal.

Due to aging and environmental factors such as temperature and vibration, it is hard to keep even the best quartz oscillators within one part in 10^-10 of their nominal frequency without constant adjustment. For this reason, atomic oscillators are used for applications that require better long-term stability and accuracy.

Although crystals can be fabricated for any desired resonant frequency, within technological limits, in actual practice today engineers design crystal oscillator circuits around relatively few standard frequencies, such as 3.58 MHz, 10 MHz, 14.318 MHz, 20 MHz, 33.33 MHz, and 40 MHz. The vast popularity of the 3.58 MHz and 14.318 MHz crystals is attributed initially to low cost resulting from economies of scale

Economies of scale

Economies of scale, in microeconomics, are the cost advantages that a business obtains due to expansion. They are factors that cause a producer?s average cost per unit to fall as output rises....
resulting from the popularity of television and the fact that this frequency is involved in synchronizing to the colorburst

Colorburst

In composite video, colorburst is a signal used to keep the chrominance subcarrier synchronized in a color television signal. By synchronizing an oscillator with the colorburst at the back porch of each scan line, a television receiver is able to restore the suppressed carrier of the chrominance signals, and in turn decode the color informati...
signal necessary to display color on an NTSC

NTSC

NTSC is the analog television system used in most of the Americas, Japan, South Korea, Taiwan, the Philippines, Burma, and some Pacific island nations and territories ....
or PAL

PAL

PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC....
based television

Television

Television is a widely used telecommunication mass-media for transmitting and receiving moving , either monochrome or color, usually accompanied by sound....
set. Using frequency divider

Frequency divider

A frequency divider is an electronic circuit that takes an input signal with a frequency, , and generates an output signal with a frequency:...
s, frequency multiplier

Frequency multiplier

A frequency multiplier is commonly used in a radio receiver or radio transmitter to multiply the base frequency of the oscillator by a predetermined number....
s and phase locked loop circuits, it is practical to derive a wide range of frequencies from one reference frequency.

Care must be taken to use only one crystal oscillator source when designing circuits to avoid subtle failure modes of metastability in electronics

Metastability in electronics

Metastability in electronics is the ability of a non-equilibrium electronic state to persist for a long period of time . Note this definition does not guarantee all of the properties that are sometimes demanded for a metastable state in statistical mechanics....
. If this is not possible, the number of distinct crystal oscillators, PLLs

Phase-locked loop

A phase-locked loop or phase lock loop is a control system that generates a Signal that has a fixed relation to the phase of a "reference" signal....
, and their associated clock domains should be rigorously minimized, through techniques such as using a subdivision of an existing clock instead of a new crystal source. Each new distinct crystal source needs to be rigorously justified, since each one introduces new, difficult to debug probabilistic failure modes, due to multiple crystal interactions, into equipment.

Spurious frequencies

For crystals operated in series resonance, significant (and temperature-dependent) spurious responses may be experienced. These responses typically appear some tens of kilohertz above the wanted series resonance. Even if the series resistances at the spurious resonances appear higher than the one at wanted frequency, the oscillator may lock at a spurious frequency (at some temperatures). This is generally avoided by using low impedance oscillator circuits to enhance the series resistance differences.

Commonly used crystal frequencies

Frequency (MHz)	Primary uses
0.032768	Real-time clock Real-time clock A real-time clock is a computer clock that keeps track of the current time. Although the term often refers to the devices in personal computers, server s and embedded systems, RTCs are present in almost any electronic device which needs to keep accurate time.... s, quartz watches Quartz clock A quartz clock is a clock that uses an electronic oscillator that is regulated by a quartz crystal to keep time. This crystal oscillator creates a signal with very precise frequency, so that quartz clocks are at least an order of magnitude more accurate than good mechanical clocks.... and clocks; allows binary division to 1 Hz signal (2¹⁵ × 1 Hz)
1.8432	UART clock; allows integer division to common baud rates. (= 2¹³ × 3² × 5². 16 × 115200 baud or 96 × 16 × 1200 baud)
2.4576	UART clock; allows integer division to common baud rates up to 38400
3.2768	Allows binary division to 100 Hz (32768 × 100 Hz, or 2¹⁵ × 100 Hz)
3.575611	PAL PAL PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC.... M color subcarrier Subcarrier A subcarrier is a separate analog or digital signal carried on a main radio transmission , which carries extra information such as voice or data....
3.579545	NTSC NTSC NTSC is the analog television system used in most of the Americas, Japan, South Korea, Taiwan, the Philippines, Burma, and some Pacific island nations and territories .... M color subcarrier; very common and inexpensive, used in many other applications, e.g. DTMF generators
3.582056	PAL PAL PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC.... N color subcarrier
3.686400	UART clock (2 × 1.8432 MHz); allows integer division to common baud rates
4.096000	Allows binary division to 1 kHz (2¹² × 1 kHz)
4.194304	Real-time clock Real-time clock A real-time clock is a computer clock that keeps track of the current time. Although the term often refers to the devices in personal computers, server s and embedded systems, RTCs are present in almost any electronic device which needs to keep accurate time.... s, divides to 1 Hz signal (2²² × 1 Hz)
4.332	The RDS Radio Data System Radio Data System, or RDS, is a communications protocol standard from the European Broadcasting Union for sending small amounts of digital information using conventional FM broadcastings.... signal bit rate is at 1.1875 Kbps. While the frequency of 4.332MHz is the most commonly used crystal resonator, its multiples (2 × 4.332MHz = 8.664MHz or 4 × 4.332MHz = 17.328MHz) have been used also.
4.43361875	PAL PAL PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC.... B/D/G/H/I and NTSC M4.43 color subcarrier
4.9152	Used in CDMA systems; divided to 1.2288 MHz baseband frequency as specified by J-STD-008
5.068	Used in radio transceivers as an IF Intermediate frequency In communications and electronic engineering, an intermediate frequency is a frequency to which a Carrier wave is shifted as an intermediate step in Transmission or reception.... source
6.144	Digital audio systems - DAT Digital Audio Tape Digital Audio Tape is a signal recording and playback medium developed by Sony in the mid 1980s. In appearance it is similar to a compact audio cassette, using 4 mm magnetic tape enclosed in a protective shell, but is roughly half the size at 73 mm ? 54 mm ? 10.5 mm.... , MiniDisc MiniDisc A MiniDisc is a magneto-optical disc-based data storage device initially intended for storage of up to 80 minutes of digitized sound. Today, in the form of Hi-MD, it has developed into a general-purpose storage medium in addition to greatly expanding its audio roots.... , sound cards; 128 × 48 kHz (2⁷ × 48 kHz). Also allows integer division to common UART baud rates up to 38400.
6.5536	Allows binary division to 100 Hz (65536 × 100 Hz, or 2¹⁶ × 100 Hz); used also in red boxes
7.15909	NTSC M color subcarrier (2 × 3.579545 MHz)
7.3728	UART clock (4 × 1.8432 MHz); allows integer division to common baud rates
8.86724	PAL B/G/H color subcarrier (2 × 4.433618 MHz)
9.216	Allows integer division to 1024 kHz and its halves (16 kHz, 32 kHz, 64 kHz...)
9.83040	Used in CDMA systems (2 × 4.9152); divided to 1.2288 MHz baseband frequency
10.245	Used in radio transceivers; mixes with 10.7 MHz subcarrier yielding 455 kHz signal, a common second IF Intermediate frequency In communications and electronic engineering, an intermediate frequency is a frequency to which a Carrier wave is shifted as an intermediate step in Transmission or reception.... for FM radio and first IF for AM radio
10.700	Used in radio transceivers as an IF Intermediate frequency In communications and electronic engineering, an intermediate frequency is a frequency to which a Carrier wave is shifted as an intermediate step in Transmission or reception.... source
11.0592	UART clock (6 × 1.8432 MHz); allows integer division to common baud rates
11.2896	Used in compact disc Compact Disc A Compact Disc is an optical disc used to store Data , originally developed for storing digital audio. The CD, available on the market since October 1982, remains the standard physical medium for sale of commercial Sound recording and reproduction to the present day.... digital audio systems and CDROM drives; allows binary division to 44.1 kHz (256 × 44.1 kHz), 22.05 kHz, and 11.025 kHz
12.0000	Used in USB systems as the reference clock for the full-speed PHY rate of 12 Mbit/s, or multiplied up using a PLL to clock high speed PHYs at 480 Mbit/s
12.288	Digital audio systems - DAT Digital Audio Tape Digital Audio Tape is a signal recording and playback medium developed by Sony in the mid 1980s. In appearance it is similar to a compact audio cassette, using 4 mm magnetic tape enclosed in a protective shell, but is roughly half the size at 73 mm ? 54 mm ? 10.5 mm.... , MiniDisc MiniDisc A MiniDisc is a magneto-optical disc-based data storage device initially intended for storage of up to 80 minutes of digitized sound. Today, in the form of Hi-MD, it has developed into a general-purpose storage medium in addition to greatly expanding its audio roots.... , sound card Sound card A sound card is a computer expansion card that facilitates the input and output of sound to/from a computer under control of computer programs.... s; 256 × 48 kHz (2⁸ × 48 kHz). Also allows integer division to common UART baud rates up to 38400.
13.500	Master clock for PAL/NTSC DVD players, Digital TV receivers etc. (13.5 MHz is an exact multiple of the PAL PAL PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC.... and NTSC NTSC NTSC is the analog television system used in most of the Americas, Japan, South Korea, Taiwan, the Philippines, Burma, and some Pacific island nations and territories .... line frequencies)
13.56	Common contactless smartcard frequency (ISO 14443 ISO 14443 ISO/IEC 14443 defines a proximity card used for identification that usually uses the standard credit card form factor defined by ISO 7810 ID-1. Other form factors also are possible.... )
13.875	Used in some teletext Teletext Teletext is a television information retrieval service developed in the United Kingdom in the early 1970s. It offers a range of text-based information, typically including national, international and sporting news, weather and TV schedules.... circuits; 2 × 6.9375 MHz (clock frequency of PAL B teletext; SECAM uses 6.203125 MHz, NTSC M uses 5.727272 MHz, PAL G uses 6.2031 MHz, and PAL I uses 4.4375 MHz clock)
14.31818	NTSC M color subcarrier (4 × 3.579545 MHz). Common seed clock for modern PC motherboard clock generator chips, also common on VGA cards.
14.7456	UART clock (8 × 1.8432 MHz); allows integer division to common baud rates
16.368	Commonly used for down-conversion and sampling in GPS-receivers. Generates intermediate frequency Intermediate frequency In communications and electronic engineering, an intermediate frequency is a frequency to which a Carrier wave is shifted as an intermediate step in Transmission or reception.... signal at +4.092 MHz. 16.3676 or 16.367667 MHz are sometimes used to avoid perfect lineup between sampling frequency and GPS spreading code.
16.9344	Used in compact disc Compact Disc A Compact Disc is an optical disc used to store Data , originally developed for storing digital audio. The CD, available on the market since October 1982, remains the standard physical medium for sale of commercial Sound recording and reproduction to the present day.... digital audio systems and CDROM drives; allows integer division to 44.1 kHz (384 × 44.1 kHz), 22.05 kHz, and 11.025 kHz. Also allows integer division to common UART baud rates.
17.734475	PAL B/G/H color subcarrier (4 × 4.433618 MHz)
18.432	UART clock (10 × 1.8432 MHz); allows integer division to common baud rates. Also allows integer division to 48 kHz (384 × 48 kHz), 96 kHz, and 192 kHz samplerates used in high-end digital audio.
19.6608	Used in CDMA systems (4 × 4.9152); divided to 1.2288 MHz baseband frequency
20.000	10 Mbit/s ethernet Ethernet physical layer The Ethernet physical layer is the physical layer component of the Ethernet standard.The Ethernet physical layer evolved over a considerable time span and encompasses quite a few physical media interfaces and several Magnitude s of speed....
24.576	Digital audio systems - DAT Digital Audio Tape Digital Audio Tape is a signal recording and playback medium developed by Sony in the mid 1980s. In appearance it is similar to a compact audio cassette, using 4 mm magnetic tape enclosed in a protective shell, but is roughly half the size at 73 mm ? 54 mm ? 10.5 mm.... , MiniDisc MiniDisc A MiniDisc is a magneto-optical disc-based data storage device initially intended for storage of up to 80 minutes of digitized sound. Today, in the form of Hi-MD, it has developed into a general-purpose storage medium in addition to greatly expanding its audio roots.... , AC'97 AC97 AC'97 is Intel Corporation's Sound reproduction "Codec" standard developed by the Intel Architecture Labs in 1997, and used mainly in motherboards, modems, and sound cards.... , sound card Sound card A sound card is a computer expansion card that facilitates the input and output of sound to/from a computer under control of computer programs.... s; 512 × 48 kHz (2⁹ × 48 kHz)
25.000	Fast Ethernet Fast Ethernet In computer networking, Fast Ethernet is a collective term for a number of Ethernet standards that carry traffic at the nominal rate of 100 Mbit/s, against the original Ethernet speed of 10 Mbit/s.... MII Media Independent Interface The Media Independent Interface is a standard interface used to connect a Fast Ethernet Media Access Control-block to a PHY. The MII may connect to an external transceiver device via a pluggable connector or simply connect two chips on the same printed circuit board.... clock (100 MHz / 4-bit nibble Nibble A nibble is the computing term for a four-bit aggregation, or half an octet . As a nibble contains 4 bits, there are sixteen possible values, so a nibble corresponds to a single hexadecimal digit .... )
25.175	Common Video Graphics Array Video Graphics Array The term Video Graphics Array refers specifically to the display hardware first introduced with the IBM Personal System/2 line of computers in 1987, but through its widespread adoption has also come to mean either an analogue electronics computer display standard, the 15-pin D-subminiature VGA connector or the 640×480 resolution its... pixelclock (i.e. 640x350@70 Hz,640x400@70 Hz, 640x480@60 Hz)
26.000	Commonly used as a reference clock for GSM and UMTS handsets. (26 MHz is exactly 96 × the GSM bit rate)
27.000	Master clock for PAL/NTSC DVD players, Digital TV receivers etc. (27 MHz is an exact multiple of the PAL PAL PAL, short for Phase Alternating Line, is a color-encoding system used in broadcast television systems in large parts of the world. Other common analog television systems are SECAM and NTSC.... and NTSC NTSC NTSC is the analog television system used in most of the Americas, Japan, South Korea, Taiwan, the Philippines, Burma, and some Pacific island nations and territories .... line frequencies)
29.4912	UART clock (16 × 1.8432 MHz); allows integer division to common baud rates
33.33	common CPU clock
40.000	common CPU clock
50.000	Fast Ethernet Fast Ethernet In computer networking, Fast Ethernet is a collective term for a number of Ethernet standards that carry traffic at the nominal rate of 100 Mbit/s, against the original Ethernet speed of 10 Mbit/s.... (2 x 25MHz)

Circuit notations and abbreviations

On electrical schematic diagrams, crystals are designated with the class letter "Y" (Y1, Y2, etc.) Oscillators, whether they are crystal oscillators or other, are designated with the class letter "G" (G1, G2, etc.) (See IEEE

Institute of Electrical and Electronics Engineers

The Institute of Electrical and Electronics Engineers or IEEE is an international non-profit, professional body for the advancement of technology related to electricity....
Std 315-1975, or ANSI

American National Standards Institute

The American National Standards Institute or ANSI is a private non-profit organization that oversees the development of voluntary consensus standards for products, services, processes, systems, and personnel in the United States....
Y32.2-1975) On occasion, one may see a crystal designated on a schematic with "X" or "XTAL", or a crystal oscillator with "XO", but these forms are deprecated.

Crystal oscillator types and their abbreviations:

ATCXO — analog temperature controlled crystal oscillator
Analog Temperature Controlled Crystal Oscillator

In physics, an Analog Temperature Controlled Crystal Oscillator or Analogue Temperature Compensated Crystal Oscillator uses analog signal sampling techniques to correct the temperature deficiencies of a crystal oscillator circuit, its package and its environment....
CDXO —calibrated dual crystal oscillator
DTCXO — digital temperature compensated crystal oscillator
MCXO — microcomputer
Microcomputer

A microcomputer is a computer with a microprocessor as its central processing unit. Another general characteristic of these computers is that they occupy physically small amounts of space when compared to mainframe computer and minicomputers....
-compensated crystal oscillator
OCVCXO — oven-controlled
Crystal oven

File:Ocxo.jpgA crystal oven is a temperature-controlled chamber used to maintain the quartz crystal in electronic crystal oscillators at a constant temperature, in order to prevent changes in the frequency due to variations in ambient temperature....
voltage-controlled crystal oscillator
OCXO — oven-controlled crystal oscillator
RbXO — rubidium
Rubidium

Rubidium is a chemical element with the symbol Rb and atomic number 37. Rb is a soft, silvery-white metallic element of the alkali metal group....
crystal oscillators (RbXO), a crystal oscillator (can be a MCXO) synchronized with a built-in rubidium standard
Rubidium standard

A rubidium standard is a frequency standard in which a specified hyperfine level transition of electrons in rubidium-87 atoms is used to control the output frequency....
which is run only occasionally to save power
TCVCXO — temperature-compensated voltage-controlled crystal oscillator
Voltage-controlled oscillator

A voltage-controlled oscillator or VCO is an electronic oscillator designed to be controlled in oscillation frequency by a voltage input. The frequency of oscillation is varied by the applied DC voltage, while Modulation signals may also be fed into the VCO to cause frequency modulation or phase modulation ; a VCO with digital pulse o...
TCXO — temperature-compensated crystal oscillator
TSXO — temperature-sensing crystal oscillator, an adaptation of the TCXO
VCTCXO — voltage controlled temperature compensated crystal oscillator
VCXO — voltage-controlled crystal oscillator

Crystal oscillator

History

Operation

Modeling

Electrical model

Resonance modes

Temperature effects

Electrical oscillators

Spurious frequencies

Commonly used crystal frequencies

Circuit notations and abbreviations

See also

External links