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Microwave and Millimeter-Wave Chips Based on Thin-Film Integrated Passive Device Technology: Design and Simulation

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This book adopts the latest academic achievements of microwave and millimeter-wave chips based on thin-film integrated passive device technology as specific cases. Coherent processes of basic theories and design implementations of microwave and millimeter-wave chips are presented in detail. It forms a complete system from design theory, circuit simulation, full-wave electromagnetic simulation, and fabrication to measurement. Five representative microwave and millimeter-wave passive chips based on TFIPD technology are taken as examples to demonstrate the complete process from theory, design, simulation, fabrication, and measurement, which is comprehensive, systematical, and easy to learn and understand, convenient to operate, and close to the practical application. 

This book is mainly aimed at the design and simulation of microwave and millimeter-wave chips based on thin-film integrated passive device technology. On the basis of specific cases, it introduces the whole process from theory, design, simulation, optimization, fabrication to measurement of the balanced filter, microstrip filter, absorptive filter, power divider, and balun. 

This book is suitable for the professional technicians who are engaged in the design and engineering application of microwave and millimeter-wave device chips. It can also be used as the textbook of electronic science and technology, electromagnetic field and microwave technology, electronic engineering, radar engineering, integrated circuit, and other related majors in colleges and universities.



 

Author(s): Yongle Wu, Weimin Wang
Publisher: Springer-PHEI
Year: 2023

Language: English
Pages: 322
City: Beijing

Preface
About This Book
Introduction
References
Contents
1 Design and Simulation of Balanced Bandpass Filter
1.1 Overview of Balanced Bandpass Filter
1.1.1 Theoretical Basis
1.1.2 Propaedeutics
1.2 Schematic of Balanced Bandpass Filter
1.2.1 New Workspace and Circuit Model
1.2.2 Schematic Simulation
1.3 Layout of Balanced Bandpass Filter
1.3.1 New Substrate File
1.3.2 Layout of MIM Capacitor
1.3.3 Layout of Balanced Bandpass Filter
1.3.4 Layout Simulation
Reference
2 Design and Simulation of Millimeter-Wave Microstrip Bandpass Filter
2.1 Overview of Microstrip Filter
2.1.1 Theoretical Basis
2.1.2 Propaedeutics
2.2 Schematic of Millimeter-Wave Microstrip Bandpass Filter
2.2.1 New Workspace and Circuit Model
2.2.2 Schematic Simulation
2.2.3 Microstrip Circuit Model
2.2.4 Parameter Tuning
2.3 Layout of Millimeter-Wave Microstrip Bandpass Filter
2.3.1 New Substrate File
2.3.2 Layout of Millimeter-Wave Microstrip Bandpass Filter
2.3.3 Layout Simulation
2.3.4 Parameter Optimization
References
3 Design and Simulation of Input-Absorptive Bandstop Filter
3.1 Overview of Absorptive Bandstop Filter
3.1.1 Theoretical Basis
3.1.2 Propaedeutics
3.2 Schematic of Input-Absorptive Bandstop Filter
3.2.1 New Workspace and Circuit Model
3.2.2 Schematic Simulation
3.3 Layout of Input-Absorptive Bandstop Filter
3.3.1 New Substrate File
3.3.2 Layout of Thin-Film Resistor
3.3.3 Layout of MIM Capacitor
3.3.4 Layout of Spiral Inductor
3.3.5 Layout of Input Absorptive Bandstop Filter
3.3.6 Layout Simulation
3.4 Chip Measurement
Reference
4 Design and Simulation of Impedance-Transforming Power Divider
4.1 Overview of Power Divider
4.1.1 Theoretical Basis
4.1.2 Propaedeutics
4.2 Schematic of Impedance-Transforming Power Divider
4.2.1 New Workspace and Circuit Model
4.2.2 Schematic Simulation
4.3 Layout of Impedance-Transforming Power Divider
4.3.1 New Substrate File
4.3.2 Layout of Thin-Film Resistor
4.3.3 Layout of MIM Capacitor
4.3.4 Layout of Spiral Inductor
4.3.5 Layout of Impedance-Transforming Power Divider
4.3.6 Layout Simulation
4.4 Package and Measurement
4.4.1 Chip Package
4.4.2 Chip Measurement
References
5 Design and Simulation of Bandpass Filtering Marchand Balun
5.1 Overview of Balun
5.1.1 Theoretical Basis
5.1.2 Traditional Marchand Balun
5.2 Bandpass Filtering Marchand Balun with Spiral Coupled Lines
5.2.1 Spiral Coupled Line
5.2.2 Modified Marchand Balun
5.2.3 Bandpass Filtering Marchand Balun
5.3 Schematic of Bandpass Filtering Marchand Balun
5.3.1 New Workspace and Circuit Model
5.3.2 Schematic Simulation
5.4 Layout of Bandpass Filtering Marchand Balun
5.4.1 New Substrate File
5.4.2 Layout of MIM Capacitor
5.4.3 Layout of Spiral Inductor
5.4.4 Layout of Spiral Coupled Line
5.4.5 Layout of Bandpass Filtering Marchand Balun
5.4.6 Layout Simulation
5.5 Package and Measurement
5.5.1 Chip Package
5.5.2 Chip Measurement
5.5.3 Data Processing
References