Chapter 1: Difference between revisions
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! Voltage output |
! Voltage output |
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| Voltage <br> Open-circuit voltage gain <br> <math>A_{ |
| Voltage <br> Open-circuit voltage gain <br> <math>A_{voc}=\frac{v_o}{v_i}</math> |
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| Transresistance <br> Open-circuit transresistance gain <br> <math>R_{moc}=\frac{v_{ooc}}{i_i}</math> |
| Transresistance <br> Open-circuit transresistance gain <br> <math>R_{moc}=\frac{v_{ooc}}{i_i}</math> |
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Revision as of 14:50, 8 January 2010
Chapter 1
Amplifier Models
- These are purely models, and cannot be replicated in a real world environment. They are meant to explain.
- Trans stands for transfer - from voltage to current or visa versa.
- The inputs and outputs can be either current or voltage. This leads to 4 amplifier models.
- You can use any of these models, though some may be easier to work with (if you are given the Thevenin or Norton equivalent)
Amplifier type Gain type Equation |
Voltage input | Current input |
---|---|---|
Voltage output | Voltage Open-circuit voltage gain |
Transresistance Open-circuit transresistance gain |
Current output | Transconductance Short-circuit transconductance gain |
Current Short-circuit current gain |
Definitions - ripped straight from the book
- Input Resistance: of an amplifier is the equivalent resistance seen when looking into the input terminals
- Output Resistance: is the Thevenin resistance seen when looking back into the output terminals of an amplifier
- Open-circuit voltage gain: the ratio of output amplitude to input amplitude with the output terminals open circuited
- Short-circuit current gain: the current gain with the output terminals of the amplifier short circuited
Bag of Tricks
- Buffer amplifier
- Inverting amplifier