Design Min the condition, Vpp=1.8 VRg=100N. Maximum power consumption s Im W, input pole frequency 2 5GH2 %3D Parameters VDD 0.18 um ER Vb2 A= 0.1 V, A= 0.2 V1 H.Co120 µA/V? oVout HCo=60 µA/V VTHN= 0.4 V, VH -0.5 V 12 ff/um2 VIHN Y Con Rs Vino Cas (2/3) WLCox+(0.3 fF/um)x W Cen (0.3 fE/um)x W

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Design Min the condition, VpD = 1.8 VRS= 1002,
%3D
Maximum power consumption s Im W, input pole frequency 2 5GHZ
Parameters
VDD
RL
0.18 um
Vo2HEM3
= 0.1 V, A,= 0.2 V1
oVout
μ.C120 μΑ/
pCax
Vp1
HCo=60 HA/V?
VIHN
VIHN= 0.4 V, Vnm -0.5 V
Y
Rs
Vin
Con
12 fF/um2
M1
Cas
(2/3) WLCox +(0.3 fF/um)x W
CGD
(0.3
/um)x W
Cpe
(0.4 fF/um)x W
Cse
(0.4 fF/um)x W
(b) Design M, M, so that pole frequency of node Y higher than 5GHZ
(c) Design R, so that output pole frequency higher than 5GHZ, and find voltage
gain
(d) find all pole freqeuncy using Miller's approximation
Transcribed Image Text:Design Min the condition, VpD = 1.8 VRS= 1002, %3D Maximum power consumption s Im W, input pole frequency 2 5GHZ Parameters VDD RL 0.18 um Vo2HEM3 = 0.1 V, A,= 0.2 V1 oVout μ.C120 μΑ/ pCax Vp1 HCo=60 HA/V? VIHN VIHN= 0.4 V, Vnm -0.5 V Y Rs Vin Con 12 fF/um2 M1 Cas (2/3) WLCox +(0.3 fF/um)x W CGD (0.3 /um)x W Cpe (0.4 fF/um)x W Cse (0.4 fF/um)x W (b) Design M, M, so that pole frequency of node Y higher than 5GHZ (c) Design R, so that output pole frequency higher than 5GHZ, and find voltage gain (d) find all pole freqeuncy using Miller's approximation
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