Difference between revisions of "6002.x"
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*Unless the device is acting as a short circuit there is always a drop in voltage from the positive side to the negative side. If you put a meter from the + side to the negative it will read a positive voltage. | *Unless the device is acting as a short circuit there is always a drop in voltage from the positive side to the negative side. If you put a meter from the + side to the negative it will read a positive voltage. | ||
*The voltage drop across a device is equal to the voltage on the '+' side minus the voltage on the '-' side | *The voltage drop across a device is equal to the voltage on the '+' side minus the voltage on the '-' side | ||
===resources=== | |||
====textbook===== | |||
http://www.mkp.com/companions/1558607358 | |||
====circuitlab workbench==== | |||
https://www.circuitlab.com/workbench/ mcktimo jjjjjj | https://www.circuitlab.com/workbench/ mcktimo jjjjjj | ||
Latest revision as of 13:50, 16 December 2012
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filters
http://www.ti.com/lit/an/snoa224a/snoa224a.pdf
first principles
- Positive current moves (the arrow points in the direction) from the higher potential (voltage) toward the lower potential (voltage).
- The end of the R/L/C that the current enters is always the positive end.
- Unless the device is acting as a short circuit there is always a drop in voltage from the positive side to the negative side. If you put a meter from the + side to the negative it will read a positive voltage.
- The voltage drop across a device is equal to the voltage on the '+' side minus the voltage on the '-' side
resources
textbook=
http://www.mkp.com/companions/1558607358
circuitlab workbench
https://www.circuitlab.com/workbench/ mcktimo jjjjjj
<math>
(1/R-sqrt(1/R^2-(4*K*VS)/R*(vIN-VT)))/(2*K*(vIN-VT)
</math>
http://users.ece.gatech.edu/mleach/ece3050/notes/mosfet/csamp.pdf
