+5V 10nF v 50Ω 10nF Ci 01 10nF For Q1, Cu -0.8 pF, CT 18 pF, FT1 GHz, VA -90'V Assume V is small ...
+5V 10nF v 50Ω 10nF Ci 01 10nF For Q1, Cu -0.8 pF, CT 18 pF, FT1 GHz, VA -90'V Assume V is small enough so that the circuit is operating linearly Vo(s) [3] Determine the frequency response, H(s) Vo(s) Derive, VT (S) Vi(s) then, then combine. Vt (S) Neglect components that have a small effect. Use Millers theorem to simplify the small signal model. Approximate the Miller gain as the maximum voltage gain, i.e. no frequency dependence.
+5V 10nF v 50Ω 10nF Ci 01 10nF For Q1, Cu -0.8 pF, CT 18 pF, FT1 GHz, VA -90'V Assume V is small enough so that the circuit is operating linearly Vo(s) [3] Determine the frequency response, H(s) Vo(s) Derive, VT (S) Vi(s) then, then combine. Vt (S) Neglect components that have a small effect. Use Millers theorem to simplify the small signal model. Approximate the Miller gain as the maximum voltage gain, i.e. no frequency dependence.