Difference between revisions of "Model-Based Analog Circuit Design"
Jump to navigation
Jump to search
Line 7: | Line 7: | ||
One solution around this problem is to use the simulator, in conjunction with the BSIM models, as a "calculator". | One solution around this problem is to use the simulator, in conjunction with the BSIM models, as a "calculator". | ||
− | == | + | == Small-Signal Model == |
In circuit design, we are normally interested in the following parameters: | In circuit design, we are normally interested in the following parameters: | ||
* Gain | * Gain | ||
Line 15: | Line 15: | ||
* Noise | * Noise | ||
− | It turns out we can most of these parameters by using our BSIM models as lookup tables | + | It turns out we can most of these small-signal parameters by using our BSIM models as lookup tables, since our small signal equations remain the same: |
+ | |||
+ | {{NumBlk|::|<math>i_{ds}=\frac{\partial I_D}{\partial V_{GS}}\cdot v_{gs} + \frac{\partial I_D}{\partial V_{BS}}\cdot v_{bs} + \frac{\partial I_D}{\partial V_{DS}}\cdot v_{ds}</math>|{{EquationRef|1}}}} |
Revision as of 11:28, 18 August 2020
Being able to analyze and design analog circuits using "hand analysis" allows us to build intuition, and this intuition enables us to create designs that are optimal and innovative. However:
- Our simple models such as the square-law model or velocity-saturation model, cannot accurately describe the behavior of key parameters such as output resistance, , or completely misses operating regions such as the moderate inversion region.
- Using more accurate and complex models, such as BSIM, is ideal for verification, but not really suited for "hand analysis" since
- We have to work with hundreds of parameters per transistor, or
- Make many assumptions to reduce these parameters, but then only ending up in the same situation as using the simple models.
One solution around this problem is to use the simulator, in conjunction with the BSIM models, as a "calculator".
Small-Signal Model
In circuit design, we are normally interested in the following parameters:
- Gain
- Bandwidth
- Power
- Voltage Swing
- Noise
It turns out we can most of these small-signal parameters by using our BSIM models as lookup tables, since our small signal equations remain the same:
-
(1)
-