EE 105: Microelectronic Devices & Circuits CTN 10/23/19 Lecture …ee105/fa19/lectures/Lec... ·...
Transcript of EE 105: Microelectronic Devices & Circuits CTN 10/23/19 Lecture …ee105/fa19/lectures/Lec... ·...
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 1
Lecture 23: Small-Signal CE Amplifier Analysis
• Announcements:
• HW#7 online and due Friday via Gradescope
• Lab#5 due Tuesday, Nov. 12, 5 p.m.
• Gave Z scores last time
• -------------------------------------
• Lecture Topics:
Finish Common Emitter Amplifier
Frequency Response
High Frequency Model for BJT
• -------------------------------------
• Last Time:
• Going through a Common Emitter Amplifier small-signal analysis example
• Now, continue with this …
Procedure for Small-Signal Analysis
• (Common Emitter Example)
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 2
① Determine the DC operating point
• i.e., find the relevant DC voltages at all nodes and DC currents through all branches
• Draw the DC circuit
Eliminate independent AC small-signal sources
―Short AC voltage sources
―Open AC current sources
Open all capacitors (in particular, open the bypass/coupling capacitors)
Use DC transistor models
―this might entail nonlinearity in some cases, but approximations can alleviate
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 3
② Determine the elements in the small-signal transistor model(s)
If more than one transistor, might need to determine SS element values for several of them
③ Obtain the small-signal circuit
Eliminate independent DC sources
―Short DC voltage sources
―Open DC current sources
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 4
④ Use standard circuit analysis (i.e., KCL or KVL with superposition) to determine the parameters of interest
• Usually, the parameters of interest include
Gain, Av
Input Resistance, Ri
Output Resistance, Ro
Low Frequency Cut-off, wb
High Frequency Cut-off, wh
• Determine all of these during small-signal analysis
• The total gain of the simplified amplifier circuit takes the form
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 5
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 6
⑤ Use the gain and resistances determined above to obtain the small-signal voltages and currents at each node/branch of the circuit
• To obtain the actual node & branch signals, superpose the DC and small-signal AC solutions
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EE 105: Microelectronic Devices & CircuitsLecture 23w: Small-Signal CE Amplifier Analysis
CTN 10/23/19
Copyright © 2019 Regents of the University of California 7