ANALOGUE ELECTRONICS I

Slides:

Advertisements

Similar presentations

FET Small-Signal Analysis

Advertisements

Transistor Amplifiers

ANALOG ELECTRONIC CIRCUITS 1 EKT 204 Frequency Response of BJT Amplifiers (Part 2) 1.

SMALL SIGNAL BJT AMPLIFIER

Recall Lecture 13 Biasing of BJT Applications of BJT

ECE 352 Electronics II Winter 2003 Ch. 8 Feedback 1 *Feedback circuit does not load down the basic amplifier A, i.e. doesn’t change its characteristics.

Transistors These are three terminal devices, where the current or voltage at one terminal, the input terminal, controls the flow of current between the.

FET ( Field Effect Transistor)

Module 2: Part 2 Basic BJT Amplifiers. Learning Objectives After studying this module, the reader should have the ability to: n Explain graphically the.

Field Effect Transistors Circuit Analysis EE314 HP PA8000 Fujitsu Fairchild Clipper C100.

EE40 Lec 20 MOS Circuits Reading: Chap. 12 of Hambley

EE314 Intel Pentium 4 Field Effect Transistors Equivalent Circuits.

Week 9a OUTLINE MOSFET ID vs. VGS characteristic

© Electronics Recall Last Lecture The MOSFET has only one current, I D Operation of MOSFET – NMOS and PMOS – For NMOS, V GS > V TN V DS sat = V GS – V.

Chapter Five The Field-Effect Transistor. Figure 6—2 A three-terminal nonlinear device that can be controlled by the voltage at the third terminal v.

Electronics Principles & Applications Sixth Edition Chapter 7 More About Small-Signal Amplifiers (student version) ©2003 Glencoe/McGraw-Hill Charles A.

FET ( Field Effect Transistor)

Week 6 – Chapter 3 FET Small-Signal Analysis Mohd Shawal Jadin FKEE UMP © 2009.

Amplifier Circuit This amplifier circuit DC analysis.

Metal-Oxide- Semiconductor (MOS) Field-Effect Transistors (MOSFETs)

12.5 Common Source Amplifiers

Chapter 13 Small-Signal Modeling and Linear Amplification

Recall Last Lecture Biasing of BJT Applications of BJT

EEE1012 Introduction to Electrical & Electronics Engineering Chapter 7: Field Effect Transistor by Muhazam Mustapha, October 2010.

Part B-3 AMPLIFIERS: Small signal low frequency transistor amplifier circuits: h-parameter representation of a transistor, Analysis of single stage transistor.

McGraw-Hill © 2008 The McGraw-Hill Companies Inc. All rights reserved. Electronics Principles & Applications Seventh Edition Chapter 7 More About Small-Signal.

Chapter Seven Frequency Response. Figure 7.1 Amplifier gain versus frequency.

ECE 340 ELECTRONICS I MOS APPLICATIONS AND BIASING.

EKT104 ANALOG ELECTRONIC CIRCUITS [LITAR ELEKTRONIK ANALOG] BASIC BJT AMPLIFIER (PART II) DR NIK ADILAH HANIN BINTI ZAHRI

JFET and MOSFET Amplifiers

FET Amplifiers Chapter 8 Boylestad Electronic Devices and Circuit Theory.

ANALOG ELECTRONIC CIRCUITS 1

ELECTRICA L ENGINEERING Principles and Applications SECOND EDITION ALLAN R. HAMBLEY ©2002 Prentice-Hall, Inc. Chapter 12 Field-Effect Transistors Chapter.

© The McGraw-Hill Companies, Inc McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I 10.

ANALOG ELECTRONIC CIRCUITS 1

1 Fundamentals of Microelectronics  CH1 Why Microelectronics?  CH2 Basic Physics of Semiconductors  CH3 Diode Circuits  CH4 Physics of Bipolar Transistors.

BJT amplifier & small-signal concept

Robert Boylestad Digital Electronics Copyright ©2002 by Pearson Education, Inc. Upper Saddle River, New Jersey All rights reserved. Chapter 9: FET.

Microelectronic Circuit Design, 3E McGraw-Hill Chapter 13 Small-Signal Modeling and Linear Amplification Microelectronic Circuit Design Richard C. Jaeger.

Microelectronic Circuit Design, 3E McGraw-Hill Chapter 14 Single-Transistors Amplifiers Microelectronic Circuit Design Richard C. Jaeger Travis N. Blalock.

© 2000 Prentice Hall Inc. Figure 5.1 n-Channel enhancement MOSFET showing channel length L and channel width W.

Depletion-type MOSFET bias circuits are similar to JFETs. The only difference is that the depletion-Type MOSFETs can operate with positive values of V.

MALVINO Electronic PRINCIPLES SIXTH EDITION.

Basic FET Amplifiers Chapter Six McGraw-Hill

7-1 McGraw-Hill © 2013 The McGraw-Hill Companies, Inc. All rights reserved. Electronics Principles & Applications Eighth Edition Chapter 7 More About Small-Signal.

CHAP3: MOS Field-Effect Transistors (MOSFETs)

ANALOGUE ELECTRONICS CIRCUITS 1

SEM I 2008/09 LECTURE IV: C-E AC ANALYSIS II DMT 231 / 3 ELECTRONICS II Lecture IV AC Analysis II [BJT Common-Emitter Amplifier]

© 2013 The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill 7-1 Electronics Principles & Applications Eighth Edition Chapter 7 More About Small-Signal.

MOSFET DC circuit analysis Common-Source Circuit

Field Effect Transistors (2)

Electronics Principles & Applications Fifth Edition Chapter 7 More About Small-Signal Amplifiers ©1999 Glencoe/McGraw-Hill Charles A. Schuler.

Small-Signal FET Amplifier. FET Small-Signal Model FET amplifiers are similar to BJT amplifiers in operation.The purpose of the amplifier is the same.

1 Small Signal Model MOS Field-Effect Transistors (MOSFETs)

Solid-State Devices & Circuits

Recall Lecture 17 MOSFET DC Analysis 1.Using GS (SG) Loop to calculate V GS Remember that there is NO gate current! 2.Assume in saturation Calculate I.

Chapter 8: FET Amplifiers. Copyright ©2009 by Pearson Education, Inc. Upper Saddle River, New Jersey All rights reserved. Electronic Devices and.

SMALL SIGNAL FET (Field– Effect Transistors) AMPLIFIER 1.Introduction/Basic 2.FET Small-Signal Model 3.Fixed-Bias Configuration 4.Self-Bias Configuration.

6/8/2016Faculty of Engineering Cairo University Chap Lecture 2 Single-Transistor Amplifiers Dr. Ahmed Nader Adapted from presentation by Richard.

The Bipolar Junction Transistor

ECE 333 Linear Electronics Chapter 7 Transistor Amplifiers How a MOSFET or BJT can be used to make an amplifier  linear amplification  model the linear.

SUB.TEACHER:- MR.PRAVIN BARAD NAME:-SAGAR KUMBHANI ( ) -VIKRAMSINH JADAV( ) -PARECHA TUSHAR( ) TOPIC:-LINEAR AMPLIFIER(BJT.

MOSFET Basic FET Amplifiers The MOSFET Amplifier

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. MALVINO & BATES SEVENTH EDITION Electronic PRINCIPLES.

ANALOGUE ELECTRONICS CIRCUITS I EKT 204 Frequency Response of FET Amplifiers 1.

Chapter 8: FET Amplifiers

10 Transistor Amplifiers and Switches.

ANALOGUE ELECTRONICS I

FET Amplifiers.

Chapter 8: FET Amplifiers

Presentation transcript:

ANALOGUE ELECTRONICS I EKT 204 Basic FET Amplifier

Graphical Analysis, Load Lines Small-signal Parameters MOSFET AMPLIFIER Graphical Analysis, Load Lines Small-signal Parameters

Graphical Analysis, Load Lines IDQ VDSQ Common-source transistor characteristic

gm0 is the gm value when VGS = 0 MOSFET Parameters Transconductance, gm gm0 is the gm value when VGS = 0 gm also known as gFS : forward transconductance

Small-signal Equivalent Circuit VDD RD vi vO VGSQ vDS vGS + - iD RD vi vo vgs id NMOS common source circuit with time-varying signal source in series with gate DC source AC equivalent circuit

Small-signal Equivalent Circuit vO = vDS = VDD – iDRD = VDD – (IDQ + id)RD = (VDD – IDRD) - idRD Small-signal parts: vo = vds = -idRD id = gmvgs vi = vgs RD vi vo vgs id AC equivalent circuit

Small-signal Equivalent Circuit D G S vgs vds ids + - ro vgs gmvgs + - ids Common source NMOS with small signal parameters Simplified small signal equivalent circuit for NMOS Small-signal output resistance where

DC Analysis – Saturation Region iD VDD vO vi R2 RD R1 CC vG ID VDD R2 RD R1 VDS VGS + - VG Voltage-divider circuit for MOSFET DC equivalent circuit

DC Analysis – Saturation Region ID VDD R2 RD R1 VDS VGS + - VG DC equivalent circuit

Example VTN = 1 V K = 0.1 mA/V2 VDD 5 V 20 k 30 k RD R1 iD vO CC vG vi R2 RD R1 CC vG 30 k 20 k 5 V VTN = 1 V K = 0.1 mA/V2

DC equivalent circuit ID VDD R2 RD R1 VDS VGS + - VG The transistor is biased in the saturation region because VDS > VDS(sat) ; since VDS(sat) = VGS – VTN = 2 – 1 = 1 V

Common-Source Amplifier Common-Drain Amplifier Common-Gate Amplifier MOSFET AMPLIFIER Common-Source Amplifier Common-Drain Amplifier Common-Gate Amplifier

COMMON-SOURCE AMPLIFIER - Basic Configuration Common-source circuit with voltage divider biasing & coupling capacitor

Small-signal equivalent circuit input resistance input voltage output voltage small-signal voltage gain

DC load line & transition point VDSQ IDQ VDD vDS iD Q-point Transition point DC load line & transition point

COMMON-SOURCE AMPLIFIER - with Source Resistor vo RL RS RD R1 R2 C1 C2 vi +VDD 2 k 12V 3 k RSi 300 k 200 k CALCULATION EXAMPLE Given: VTN = 2V, K = 1 mA/V2,  = 0 Determine: i- Q-point values (ID , VDS) ii- small-signal voltage gain Stabilize the Q-point against variation of transistor parameters

Q-point values dc equivalent circuit VDD=12V RD=3 k R1=300 k VG RS=2 k RD=3 k R1=300 k R2=200 k VG dc equivalent circuit

Q-point values (Cont) For VGS = 0.54 V, MOSFET  cutoff ‘coz VGS<VTN . Therefore, VGS = 2.96V So, the Q point values:

Small-signal analysis Vi Vo Vgs gmVgs R1||R2 RD||RL + _ RS RSi

COMMON-SOURCE AMPLIFIER - with Bypass Capacitor vo RL RS RD R1 R2 C1 C2 C3 vi +VDD RSi Minimize the lost in small-signal voltage gain while maintaining the Q-point stability

Small signal equivalent circuit Vi Vo Vgs gmVgs R1||R2 RD||RL + _ ro Ri RSi

COMMON-DRAIN AMPLIFIER vo RL RS R1 R2 C1 C2 vi +VDD RSi

Small signal equivalent circuit _ Vi Vo Vgs gmVgs R1||R2 + ro RSi RS||RL Vin G S D input impedance Output impedance input voltage output voltage small-signal voltage gain

COMMON-GATE AMPLIFIER vo RL IQ RD C1 C2 vi V+ RSi C3 RG V -

Small-signal equivalent circuit Ri gmVgs Vi Vo Vgs + _ RL RSi RD Ii G D S input impedance input voltage output voltage input current small-signal voltage gain

JFET AMPLIFIER JFET Parameters DC Analysis Common-Source Amplifier Common-Drain Amplifier

JFET Parameters Transconductance, gm Small-signal output resistor, ro Magnitude only i.e remove the –ve sign Vp= VGS(off)

JFET Amplifier: DC Analysis

COMMON-SOURCE CIRCUIT vo vi VDD R1 RD R2 RL RS C1 C2 CS

Small-signal equivalent circuit Vo Vgs ro RD||RL gmVgs Vi + - R1||R2 output voltage input voltage small-signal voltage gain

COMMON-DRAIN CIRCUIT vo vi V+ RG RL RS C1 C2 V-

Small-signal equivalent circuit Vo Vgs ro RS gmVgs Vi RG RL - + input voltage output voltage small-signal voltage gain

Small-signal equivalent circuit Another form of small-signal equivalent circuit small-signal voltage gain