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本帖最后由 woainio 于 2011-9-29 16:26 编辑
Ultra High-Speed CMOS Circuits Beyond 100 GHz.pdf
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Ultra High-Speed CMOS Circuits: Beyond 100 GHz
by: [size=90%]Sam Gharavi, Babak Heydari
Product Description
The book covers the CMOS-based millimeter wave circuits and devices and presents methods and design techniques to use CMOS technology for circuits operating beyond 100 GHz. Coverage includes a detailed description of both active and passive devices, including modeling techniques and performance optimization. Various mm-wave circuit blocks are discussed, emphasizing their design distinctions from low-frequency design methodologies. This book also covers a device-oriented circuit design technique that is essential for ultra high speed circuits and gives some examples of device/circuit co-design that can be used for mm-wave technology.
Product Details - Hardcover: 113 pages
- Publisher: Springer; 2011 edition (October 31, 2011)
- Language: English
- ISBN-10: 1461403049
- ISBN-13: 978-1461403043
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Contents
Chapter 1: Introduction
1.1 Future of CMOS
1.2 The Terahertz Gap
1.3 Shift of Paradigm in the IC Design
1.4 Potential New Applications and Technologies
1.5 This Book
Chapter 2: mm-Wave Device Modeling
2.1 The Importance of Modeling in mm-Wave
2.2 High Frequency Modeling Procedure
2.2.1 Large Signal Modeling
2.3 Measurement and De-embedding
2.3.1 RF Measurement Pads
2.3.2 Open-Short De-embedding
2.3.3 Recursive Modeling Process
2.4 Cascode Modeling
References
Chapter 3: mm-Wave Device Optimization
3.1 Device Performance Metrics
3.2 Layout Effect on Device Performance
3.2.1 Parasitic Resistance Optimizations
3.2.2 Multi-Finger Layout Optimization
3.3 Round-Table Structure
3.4 mm-Wave Power Device Optimization
References
Chapter 4: mm-Wave CMOS Noise Analysis
4.1 Introduction
4.2 Two Port Noise Models
4.3 CMOS Noise Model
4.4 mm-Wave Noise Model
4.5 Noise Sensitivity Analysis to Parasitics
4.6 Experimental Results
References
Chapter 5: Unilateralization
5.1 Theory of Unilateralization
5.1.1 Mason Gain as a Maximum Gain
5.2 2-Port Unilateralization Techniques
5.3 N-Port Unilateralization
5.4 Single Transistor Unilateralization
5.5 Simulated Results and Implementation
5.5.1 Implementation and Experimental Results
References
Chapter 6: Terahertz CMOS Devices, Circuits and Systems
6.1 Ultra-High Speed CMOS Devices
6.1.1 CMOS with Enhanced-Mobility Channel
6.1.2 Graphene High-Speed Transistors
6.2 Ultra-High Speed CMOS Circuits
6.2.1 Nano-Scale CMOS Transceiversin the 90–170GHz Range
6.2.2 CMOS THz Oscillator Based on Linear Superposition
6.2.3 THz CMOS Push–Push Oscillator
6.2.4 300GHz Fundamental-Tone Oscillator in CMOS
6.2.5 600GHz CMOS Passive Imager
6.2.6 200GHz CMOS Frequency Divider
6.3 Ultra-High Speed Systems
6.3.1 Ultra-High-Speed Data Communication
6.3.2 Direct Antenna Modulation Systems
6.4 Chapter Summary and Conclusion
References
Chapter 7: Imaging Applications
7.1 Photons Interaction with Matter
7.2 Active and Passive Imaging
7.3 Optical Versus Non-optical Imaging
7.3.1 Responsivity
7.4 Attenuation
7.5 Image Quality Metrics
7.5.1 Spatial Resolution
7.5.2 Contrast
7.5.3 Penetration Depth
7.6 Passive Imaging Basics
7.7 Imaging Arrays
7.8 Medical Imaging
7.8.1 X-ray Imaging
7.8.2 Magnetic Resonance Imaging
7.8.3 Nuclear Imaging
7.9 Emerging New Medical Imaging Applications
7.10 Chapter Summary and Conclusions
References
Index |
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