Ideal vs. Nonideal Op Amps: Difference between revisions

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! Ideal !! Nonideal
! Ideal !! Nonideal
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| Infinite input impedance || Input impedance of about 1M <math>\Omega for IC op amps; as much as 10 <sup>12</sup><math>\Omegafor op amps with field effect transistor
| Infinite input impedance || Input impedance of about 1M Ω for IC op amps; as much as 10 <sup>12</sup>Ω for op amps with field effect transistor
|-
|-
| Infinite open-loop gain for the differential signal || Open-loop gain typically between 10<sup>4</sup>and 10<sup>6</sup>
| Infinite open-loop gain for the differential signal || Open-loop gain typically between 10<sup>4</sup>and 10<sup>6</sup>
|-
|-
| Zero output impedance || Output impedance typically between 1 and 100 Ω
| Zero gain for the common-mode signal || Poop
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|-
| Zero output impedance || Output impedance typically between 1 and 100 <math>\Omega
| Infinite bandwidth || Bandwidth typically limited by the designer to avoid oscillation
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| Infinite bandwidth || beat up books
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|}
==References==
Electronics, Second Edition. Allan R. Hambley.

[[Chapter 1]] - Greg Fong

==Contributors==
[[Lau, Chris | Christopher Garrison Lau I]]

==Reviewers==

*[[Ben Henry|Henry,Ben]]

*[[Vier, Michael|Vier, Michael]]

==Readers==

Latest revision as of 22:36, 12 January 2010

Ideal Nonideal
Infinite input impedance Input impedance of about 1M Ω for IC op amps; as much as 10 12Ω for op amps with field effect transistor
Infinite open-loop gain for the differential signal Open-loop gain typically between 104and 106
Zero output impedance Output impedance typically between 1 and 100 Ω
Infinite bandwidth Bandwidth typically limited by the designer to avoid oscillation

References

Electronics, Second Edition. Allan R. Hambley.

Chapter 1 - Greg Fong

Contributors

Christopher Garrison Lau I

Reviewers

Readers