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Consider the MOSFET common-source amplifier shown below: a) Using the direct analysis method, derive expressions for the location of all low-frequency poles and zeroes of the amplifier circuit's transfer function. b) Using the Miller method, derive expressions for the location of all high-frequency poles and zeroes of the amplifier circuit's transfer function. You may neglect the effects of channel length modulation in your analysis. NOTE: The midband gain of the amplifier shown above can be expressed as AMID = −gmRD 1+gmRS1

Consider the MOSFET common-source amplifier shown below: a) Using the direct analysis method, derive expressions for the location of all low-frequency poles and zeroes of the amplifier circuit's transfer function. b) Using the Miller method, derive expressions for the location of all high-frequency poles and zeroes of the amplifier circuit's transfer function. You may neglect the effects of channel length modulation in your analysis. NOTE: The midband gain of the amplifier shown above can be expressed as AMID = −gmRD 1+gmRS1

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Consider the MOSFET common-source amplifier shown below: a) Using the direct analysis method, derive expressions for the location of all low-frequency poles and zeroes of the amplifier circuit's transfer function. b) Using the Miller method, derive expressions for the location of all high-frequency poles and zeroes of the amplifier circuit's transfer function. You may neglect the effects of channel length modulation in your analysis. NOTE: The midband gain of the amplifier shown above can be expressed as
A M I D = g m R D 1 + g m R S 1

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