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(New page: ==Golden Rules== When analyzing operational amplifiers, there are a few rules that need to be taken into consideration in order to solve circuits using KVL or KCL. # Because the output vol...) |
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# When there is a negative feedback, both inputs have the same voltage. In other words, <math>V_+</math> is equal to <math>V_-</math>. |
# When there is a negative feedback, both inputs have the same voltage. In other words, <math>V_+</math> is equal to <math>V_-</math>. |
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# When solving circuits using the nodes method, write node equations at <math>V_+</math> and <math>V_-</math>, but not at <math>V_o</math>. |
# When solving circuits using the nodes method, write node equations at <math>V_+</math> and <math>V_-</math>, but not at <math>V_o</math>. |
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==Sources== |
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*[http://people.wallawalla.edu/~Rob.Frohne/ClassNotes/ENGR356/2010/Keystone/index.php Class Notes] |
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*[http://hyperphysics.phy-astr.gsu.edu/HBASE/electronic/opampi.html Ideal Op-amp] |
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*[http://mechatronics.mech.northwestern.edu/design_ref/electrical_design/opamps.html Operational Amplifiers] |
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==Reviewer== |
Latest revision as of 09:08, 12 January 2010
Golden Rules
When analyzing operational amplifiers, there are a few rules that need to be taken into consideration in order to solve circuits using KVL or KCL.
- Because the output voltage does not dpened on the output current, the output impedance equals zero.
- The input impedance .
- When there is a negative feedback, both inputs have the same voltage. In other words, is equal to .
- When solving circuits using the nodes method, write node equations at and , but not at .