Chapter 2

From Class Wiki

Revision as of 16:07, 11 January 2010 by Fonggr (talk | contribs) (→‎DC imperfections)

(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

Jump to navigation Jump to search

Ideal Op Amp Characteristics

Infinite input impedance
Infinite open-loop gain for the differential signal
Zero gain for the common mode signal
- You can easily change an differential amplifier into a common-mode amplifier by grounding one of the inputs
Zero output impedance
Infinite bandwidth
- To allow for infinite gain regardless of the frequency? Instantaneous feedback?

Op Amp Nodal Analysis

No current flows into the + or - terminals
If negative feedback is present (and no positive feedback), then $V_{+}=V_{-}\,$
Write nodal equations at $V_{+}\,$ $V_{+}\,$ and $V_{-}\,$ $V_{-}\,$ , but not at $V_{o}\,$ $V_{o}\,$
- There is a voltage source inside the op amp. Writing a nodal equation at a voltage source adds an extra equation and an extra variable. You gain no ground.

DC imperfections

DC Imperfections

Bias currents, $I_{B+}\,$ $I_{B+}\,$ and $I_{B-}\,$ $I_{B-}\,$ , are the average dc currents flowing into the op amp input terminals. They can be caused by the signal source, feedback resistors, etc.
- The bias current is the average of the dc currents. $I_{B}={\frac {I_{B+}+I_{B-}}{2}}$
Offset current is the difference between the bias currents. $I_{off}=I_{B+}-I_{B-}\,$
Offset voltage occurs when the output voltage is nonzero for zero input voltage.

Canceling bias currents

Because bias currents flow have equal magnitude and direction, it is possible to negate their effects.
- The orientation of the offset voltage and the direction of the offset current are unknown, thus it is not possible to correct for these parameters with a circuit design.

Steps

Ground the input
Set the output to 0
Add in the bias currents
Add in the new resistor to balance out the
Set the two nodal equations equal to each other and solve for the new resistor

Problem 2.17

Derive an expression for R in terms of the other resistor values, so that the output voltage due to the bias currents is zero.

Amplifier Circuits

Retrieved from "http:///class-wiki/index.php?title=Chapter_2&oldid=7755"