Microwave Integrated Circuit Components Design through MATLAB®. (2019)
- Record Type:
- Book
- Title:
- Microwave Integrated Circuit Components Design through MATLAB®. (2019)
- Main Title:
- Microwave Integrated Circuit Components Design through MATLAB®
- Further Information:
- Note: S Raghavan.
- Authors:
- Raghavan, S
- Contents:
- Foreword Preface Acknowledgments Author Chapter 1 Transmission Line Networks Introduction Characteristics Impedance for different length T-network and -network sections equivalent of a transmission line T-Network and π-Network Standard L Section from which all other network topology are built Standard T-Network and π-Network formed with basic L-section shown Relationship Between and Cut-Off Frequency () Methods of Realizing L and C S-Parameters ABCD Parameter Two Port Networks Matched on image and Iteration Basics Equivalent Transmission Line circuit representation of TM and TE waves Basic Interconnection of the two-port network Transmission Line Effective ABCD Parameters Conversion of ABCD parameter of transformer into S-parameter Unit Element (UE) K-Inverter (Impedance Inverter) J-Inverter (Admittance Inverter) Analysis of odd mode and even mode Kuroda’s Identities Chapter 2. Planar Transmission Lines 2.1 Microwave Theory and Circuits 2.2 Planar transmission lines and microwave integrated circuits 2.3 Stripline 2.4 Microstrip line 2.5 Suspended Microstrip Line and inverted Microstrip Line 2.6 Slotline 2.7 Comparison between Slot line-Microstrip Line 2.8 Coplanar Waveguide (CPW) 2.8.1 Calculation of Phase velocity (ν_p) and Z_0 for CPW with infinitely thick substrate 2.9 Coplanar Strips (CPS) 2.10 Fin Line 2.11 MIC 2.12 Static –TEM parameters 2.13 Effects of Discontinuities 2.14 Applications of Transmission Line more than 100 GHz 2.15 Summary Chapter 3. Microwave IntegratedForeword Preface Acknowledgments Author Chapter 1 Transmission Line Networks Introduction Characteristics Impedance for different length T-network and -network sections equivalent of a transmission line T-Network and π-Network Standard L Section from which all other network topology are built Standard T-Network and π-Network formed with basic L-section shown Relationship Between and Cut-Off Frequency () Methods of Realizing L and C S-Parameters ABCD Parameter Two Port Networks Matched on image and Iteration Basics Equivalent Transmission Line circuit representation of TM and TE waves Basic Interconnection of the two-port network Transmission Line Effective ABCD Parameters Conversion of ABCD parameter of transformer into S-parameter Unit Element (UE) K-Inverter (Impedance Inverter) J-Inverter (Admittance Inverter) Analysis of odd mode and even mode Kuroda’s Identities Chapter 2. Planar Transmission Lines 2.1 Microwave Theory and Circuits 2.2 Planar transmission lines and microwave integrated circuits 2.3 Stripline 2.4 Microstrip line 2.5 Suspended Microstrip Line and inverted Microstrip Line 2.6 Slotline 2.7 Comparison between Slot line-Microstrip Line 2.8 Coplanar Waveguide (CPW) 2.8.1 Calculation of Phase velocity (ν_p) and Z_0 for CPW with infinitely thick substrate 2.9 Coplanar Strips (CPS) 2.10 Fin Line 2.11 MIC 2.12 Static –TEM parameters 2.13 Effects of Discontinuities 2.14 Applications of Transmission Line more than 100 GHz 2.15 Summary Chapter 3. Microwave Integrated Circuit (MIC) Components 3.1 Directional Coupler 3.2 Two Stub Branch Line Coupler 3.3 Hybrid Ring coupler 3.4 Back waveguide Coupler 3.5 Basic T-Junction Power Divider Chapter 4. Microwave Filters 4.1 Introduction 4.2 Classification 4.3 Coupling matrix 4.4 Lumped Element Filter 4.5 Prototype Low-Pass Filter and its Design Equations for Maximally Flat and Tchebycheff Response 4.6 Butterworth Low Pass Prototype 4.7 Band Pass Filter (BPF) Design Equations 4.8 Filter Transformation 4.9 Filter Problems Chapter 5. Microwave Amplifiers Stability Input and Output Stability Circles Unconditional Stability Stability Circles Input Stability Circle Constant Gain Circles Design Procedure for Stability Circle Noise Figure Low Noise Amplifier S-Parameters and Signal Flow Graphs Derivation of Constant Gain Circles Normalized Gain Factors and Input Reflection Coefficient () Output Reflection Coefficient () Summary … (more)
- Edition:
- 1st
- Publisher Details:
- CRC Press
- Publication Date:
- 2019
- Extent:
- 1 online resource (195 pages), (94 illustrations)
- Languages:
- English
- ISBNs:
- 9781000692587
1000692582 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.472163
- Ingest File:
- 02_621.xml