Difference between revisions of "CoE 197U The CMOS Inverter"

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|[[File:Cmos short ckt current.png|thumb|465px|Figure : The CMOS switching current<ref name="king2003-2">Tsu-Jae King's UCB EECS40 (Fall 2003) Lecture 27 Slides ([https://inst.eecs.berkeley.edu/~ee40/fa03/lecture/lecture27.pdf link]).]]
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|[[File:Cmos short ckt current.png|thumb|465px|Figure : The CMOS switching current<ref name="king2003-2">Tsu-Jae King's UCB EECS40 (Fall 2003) Lecture 27 Slides ([https://inst.eecs.berkeley.edu/~ee40/fa03/lecture/lecture27.pdf link])</ref>.]]
|[[File:Cmos short circuit transient.png|thumb|465px|Figure : The CMOS transient power dissipation<ref name="king2003-2"/>.]]
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|[[File:Cmos short circuit transient.png|thumb|500px|Figure : The CMOS transient power dissipation<ref name="king2003-2"/>.]]
 
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Revision as of 18:48, 5 March 2021

The Inverter Voltage Transfer Characteristics (VTC)

The Ideal Inverter VTC

Figure : The ideal inverter voltage transfer characteristic (VTC)[1].

Static Design Metrics

Figure : The non-ideal inverter voltage transfer characteristic (VTC)[1].
Figure : The CMOS inverter voltage transfer characteristic (VTC)[2].

Noise in Digital Circuits

Noise Rejection

Noise Margins

The Regenerative Property of Inverters

Inverter Delay

Figure: Logic delay definitions [1].

Power Dissipation

Figure : The CMOS switching current[3].
Figure : The CMOS transient power dissipation[3].

Energy Consumption

References

  1. 1.0 1.1 1.2 Ming Wu's UCB EE105 (Fall 2014) Lecture 24 Slides (link)
  2. Tsu-Jae King's UCB EECS40 (Fall 2003) Lecture 26 Slides (link)
  3. 3.0 3.1 Tsu-Jae King's UCB EECS40 (Fall 2003) Lecture 27 Slides (link)
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