Download presentation
Presentation is loading. Please wait.
Published byAlexander Grant Modified over 8 years ago
1
ANALOGUE ELECTRONICS CIRCUITS I EKT 204 Frequency Response of FET Amplifiers 1
2
LOW-FREQUENCY AMPLIFIER RESPONSE Input RC Circuit Output RC Circuit Bypass RC Circuit 2
3
FET Amplifier RLRL RSRS RDRD RGRG C1C1 C2C2 ViVi +V DD C3C3 R Si VoVo Common-source FET amplifier 3
4
Input RC circuit Output RC circuit Bypass RC circuit Low-frequency Equivalent Circuit 4
5
Input RC circuit The cutoff frequencies defined by the input, output and bypass circuits can be obtained by the following formulas: where R C1 =R Si +R G Input RC circuit 5
6
Output RC circuit where R C2 =R D +R L Output RC circuit 6
7
Bypass RC circuit where R C3 =R S ||1/g m Bypass RC circuit 7
8
Low cut-off frequency Hence, f C = the largest of the three low cut-off frequency 8
9
Example RLRL RSRS RDRD RGRG C1C1 C2C2 ViVi +V DD C3C3 R Si VoVo 1K 20V 10K 4.7K 2.2K 1M 0.5 F0.01 F 2F2F Determine the lower cutoff frequency for the FET amplifier. Given K = 0.4mA/V 2, V TN = 1V, = 0 9
10
Input RC circuit Output RC circuit Bypass RC circuit Solution 10
11
Since f c in bypass RC circuit is the largest of the three cutoff frequencies, it defines the low cutoff frequency for the amplifier: f c = 238.73Hz 11
12
HIGH-FREQUENCY AMPLIFIER RESPONSE Input RC Circuit Output RC Circuit 12
13
HIGH-FREQUENCY Small capacitances exist between the gate and drain and between the gate and source. These affect the frequency characteristics of the circuit. roro C gd V gs g m V gs C gs - + hi-frequency hybrid- model 13
14
Basic data sheet for the BS 107 n-MOSFET C gs = C iss - C rss C gd = C rss 14
15
Unity-Gain Bandwidth Unity gain frequency / bandwidth, f T is defined as a frequency at which the magnitude of the short-circuit current gain goes to 1 It is a parameter of FET & is independent of circuit Page 521 15
16
FET Amplifier In high-frequency analysis, coupling and bypass capacitors are assumed to have negligible reactances and are considered to be shorts. vovo RLRL RSRS RDRD R1R1 C1C1 C2C2 vivi +V DD C3C3 R Si R2R2 16
17
R 1 ||R 2 C Mo ViVi C gs R Si R D ||R L C Mi g m V gs VoVo R TH1 R TH2 High-frequency hybrid- model with Miller effect A : midband gain 17
18
The cutoff frequencies defined by the input and output circuits can be obtained by first finding the Thevenin equivalent circuits for each section as shown below: R TH1 C in vivi (a) Input circuit whereR TH1 = R Si ||R 1 ||R 2 and C in = C gs + C Mi R TH2 C out vivi (b) Output circuit where R TH2 = R D ||R L and C out = C Mo 18
19
Example Find the cutoff frequency of the input and output RC circuit for the FET amplifier in figure below. Given that C gd =0.1pF, C gs =1pF, K =0.5mA/V 2 and V TN =2V, =0. vovo RLRL RSRS RDRD R1R1 C1C1 C2C2 vivi +V DD C3C3 R Si R2R2 4 k 234 k 10 k 166 k 0.5 k 20 k 10 V 19
20
Solution DC Analysis 20
21
Input RC circuit Midband gain Thevenin’s equivalent resistance at the input total input capacitance upper cutoff frequency introduced by input capacitance 21
22
Output RC circuit total output capacitance Thevenin’s equivalent resistance at the output upper cutoff frequency introduced by output capacitance 22
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.