Crystal oscillators 
related subjects:
Digital: oscillators, Piezo effect sensors, Quartztechnology |
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Accutrons and other
tuning fork watches |
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Buffered and
Unbuffered CMOS Inverters in Oscillator Circuits pdf file |
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Ceramic resonators
Ceramic resonator principles, Ceramic resonator applications, pdf file |
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Crystal design notes
"Series" resonant crystals, "Parallel" resonant crystals, Load Capacitance,
Frequency Tolerance, Frequency Stability, Quality Factor (Q), Calculation of
Load Capacitance, Trim Sensitivity, Impedance/Reactance Curve, Pullability, pdf file |
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Crystal oscillator application note Clock regenerator with
crystal-controlled phase-locked loop VCO (NE564), pdf file |
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Crystal oscillator
An oscillator is basically an amplifier and a frequency selective feedback
network. When, at a particular frequency, the loop gain is unity or
more, and the total phaseshift at this frequency is zero, or some multiple of
360 degrees, the condition for oscillation is satisfied, and the circuit will
produce a periodic waveform of this frequency, pdf file |
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Crystal oscillator
How does a crystal oscillator work, pdf file |
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Crystal
oscillator basics Crystal Oscillator Basics and Crystal Selection for
rfPICTM and PICmicro® Devices, pdf file |
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Crystal oscillator circuit design with digital invertor
Reactance Vs Frequency plot of a crystal, Crystal Oscillator Circuit Design,
pdf file |
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Crystal oscillator circuits
series resonant crystal oscillator, parallel resonant crystal oscillator |
| Crystal
oscillator information XO, TCXO, OCXO, VCXO, XO non-compensated crystal
oscillators, TCXO temperature compensated crystal oscillators, OCXO oven
controlled crystal oscillators, VCXO voltage controlled crystal oscillators |
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Crystal oscillators
introduction to fundamental crystal oscillators 1 - 21 MHz, series resonant circuit, parallel resonant circuit, introduction to overtone crystal circuits,
third overtone oscillator circuit, fifth overtone oscillator circuit |
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Crystal oscillators crystal oscillators are oscillators where the primary
frequency determining element is a quartz crystal. Because of the inherent
characteristics of the quartz crystal the crystal oscillator may be held to
extreme accuracy of frequency stability |
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Crystal oscillators
A Study of the Crystal Oscillator for CMOS-COPSTM, pdf file |
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Crystal oscillators
A Study of the Crystal Oscillator for CMOS-COPSTM, pdf file |
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Crystal oscillators pdf file |
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Crystal oscillators pdf file |
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Crystal oscillators
quartz crystal units serve as the controlling element of oscillator circuits by
conversion of mechanical vibrations to electrical current at a specific
frequency. This is accomplished by means of the "Piezoelectric" effect,
Tuning forks
the 32.768kHz watch crystal |
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Crystal oscillator topics pdf file |
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Crystal Resonator Terminology Crystal Resonator Terminology, pdf file |
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Crystal technology
Application Notes, Bluetooth with Crystal Resonators, Crystal Terminology,
Environmental Conditions for Frequency Components, Flow Soldering for Ceramic
Packages, How to specify a Quartz Crystal, RoHS Compatible Products, Millimetre
Wave Applications - Frequency Sources, Piezoelectric Frequency Control,
Simulation of Crystals & Resonators, Watch Crystal Soldering |
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Crystal theory
crystal theory, Specifying Crystals For Use In VCXOs And TCXOs For Wireless
Designs, Understanding Basic Terms in Crystal Oscillator Specifications, A Key
to Proper Frequency Control in Portable Equipment. |
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Crystal theory of
operation Crystal Oscillator theory of operation pdf file |
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DESIGN OF CRYSTAL
OSCILLATOR CIRCUITS |
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Digital Crystal Oscillators |
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HCMOS Crystal
Oscillators With the advent of high speed HCMOS circuits, it is possible to
build systems with clock rates of greater than 30 MHz. The familiar gate
oscillator circuits used at low frequencies work well at higher frequencies and
either L–C or crystal resonators maybe used depending on the stability required.
Above 20 MHz, it becomes expensive to fabricate fundamental mode crystals, so
overtone modes are used, pdf file |
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Fundamentals of quartz oscillators Crystal Fundamentals, Piezoelectricity,
Crystal Structure, Crystal Cuts, Vibration Modes, Frequency Determination,
Crystal Mounting, Electrical Equivalent, Typical Performance of Oscillator
Compensation Techniques, Influences on Crystal Oscillator Frequency, pdf file |
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Harmonic oscillator
using a 26 MHz crystal |
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Microcontroller
Clock—Crystal, Resonator, RC Oscillator, or Silicon Oscillator? Crystals,
ceramic resonators, RC (resistor, capacitor) oscillators, and silicon
oscillators are four types of clock sources for use with a microcontroller, ... |
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Modeling of Quartz
Crystal |
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Oscillator
design guide for ST microcontrollers Impedance representation in the
frequency domain, pdf file |
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Oscillators for microcontrollers How Feedback Oscillators Work, Positive
Reactance Oscillator, Crystal Parameters, Quartz Crystal: Symbol and Equivalent
Circuit, Equivalent Series Resistance, Frequency Tolerance, pdf file |
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Oscillators
on 8-bit microcontrollers pdf file |
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Pierce Crystal
Oscillator Design Pierce Crystal Oscillator Design |
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Quartz Crystal Resonators Applications and Requirements, Quartz Crystal
Oscillators, Quartz Crystal Resonators, Oscillator Stability, Quartz Material
Properties, Atomic Frequency Standards, Oscillator Comparison and Specification,
Time and Timekeeping, Related Devices and Applications, pdf file |
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Quartz resonator & oscillator tutorial |
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Quartz
Resonator & Oscillator Tutorial ppt file |
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Quartz
Resonator & Oscillator Tutorial ppt file |
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Quarzuhr |
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Specifying quartz crystals pdf file |
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Tuning and control of an on chip piezoelectric resonator pdf file |
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Understanding Quartz Crystals The quartz crystal or resonator operates due
to the piezoelectric effect. The piezoelectric effect of quartz allows it to
produce an electrical charge on its surface when the same surface(s) are
distorted or subjected to pressure. This distortion allows the crystal to
vibrate at a particular resonant frequency, ..., pdf file |
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Horizontaal |
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