Electronics 1: Difference between revisions
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===Integrator === | ===Integrator === | ||
[[Image:Integrator_ben.jpg|200px|thumb|right| | [[Image:Integrator_ben.jpg|200px|thumb|right|Graph of a typical Integrator Amp circuit (drawing redrawn by Ben Henry)]] | ||
The circuit at right integrates the input voltage <math>V_{in}</math> by using an Amplifier. | The circuit at right integrates the input voltage <math>V_{in}</math> by using an Amplifier. | ||
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</math> | </math> | ||
"<math>R_{2}</math> ; Provides negative feedback for low output impedance needs. But it also distorts the output."<sup>1</sup> | "<math>R_{2}</math> ; Provides negative feedback for low output impedance needs. But it also distorts the output."<sup>1</sup> | ||
The use of an Integrator circuit is the opposite of a Differentiator circuit. In other words, If you have a "^^^" style input and you Differentiate it you will get a "square sine wave" output. If you run the "square sine wave" as the input to an Integrator circuit you will end up with the "^^^" for the output. | |||
The Resistor (<math>R_{2}</math>) Is used to provide feedback of the output DC voltage. Without this, circuit wouldn't perform as calculated because of the un-ideal conditions of real life. | |||
==Contributers== | ==Contributers== | ||
Revision as of 01:30, 11 January 2010
Amplifiers
Integrator
The circuit at right integrates the input voltage by using an Amplifier.
" ; Provides negative feedback for low output impedance needs. But it also distorts the output."1
The use of an Integrator circuit is the opposite of a Differentiator circuit. In other words, If you have a "^^^" style input and you Differentiate it you will get a "square sine wave" output. If you run the "square sine wave" as the input to an Integrator circuit you will end up with the "^^^" for the output. The Resistor () Is used to provide feedback of the output DC voltage. Without this, circuit wouldn't perform as calculated because of the un-ideal conditions of real life.
Contributers
--Benjamin.henry 23:15, 10 January 2010 (UTC)
Readers
Sources
1 Quick Study "Electronics 1, Part 2"