Micromachined Circuits and Devices
Microwave to Sub-millimeter Applications
Series: Lecture Notes in Electrical Engineering; 859;
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45 385 Ft (43 223 Ft + 5% VAT)
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45 385 Ft
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Estimated delivery time: In stock at the publisher, but not at Prospero's office. Delivery time approx. 3-5 weeks.
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Product details:
- Edition number 1st ed. 2022
- Publisher Springer
- Date of Publication 9 February 2023
- Number of Volumes 1 pieces, Book
- ISBN 9789811694455
- Binding Paperback
- No. of pages380 pages
- Size 235x155 mm
- Weight 605 g
- Language English
- Illustrations 61 Illustrations, black & white; 260 Illustrations, color 478
Categories
Short description:
This book presents the design of different switching and resonant devices using the present state-of-the-art radio frequency (RF) micromachining (MEMS) technology. Different topologies of MEMS switches have been discussed considering optimum performances over microwave to millimeter wave frequency range. Wide varieties of micromachined switching networks starting from single-pole-double-throw (SPDT) to single-pole-fourteen-throw (SP14T) are discussed utilizing vertical and lateral actuation movements of the switch. Different transduction mechanisms of micromachined resonators are highlighted that includes capacitive, piezoelectric, and piezoresistive types. The book provides major design guidelines for the development of MEMS-based digital phase shifters, tunable filters, and antennas with extensive measurement data. Apart from the radio frequency (RF) requirements, an extensive guideline is given for the improvement of the reliability of micromachined switches and digital phaseshifters where multiple switches are operating simultaneously. It takes multiple iterations and extensive characterizations to conclude with a reliable MEMS digital phase shifter, and these aspects are given one of the prime attentions in this book. Detailed performance analysis of metamaterial inspired MEMS switches is then discussed for application in millimeter wave frequency bands up to about 170 GHz. The book concludes with future research activities of RF MEMS technology and its potential in space, defense, sensors, and biomedical applications.
MoreLong description:
This book presents the design of different switching and resonant devices using the present state-of-the-art radio frequency (RF) micromachining (MEMS) technology. Different topologies of MEMS switches have been discussed considering optimum performances over microwave to millimeter wave frequency range. Wide varieties of micromachined switching networks starting from single-pole-double-throw (SPDT) to single-pole-fourteen-throw (SP14T) are discussed utilizing vertical and lateral actuation movements of the switch. Different transduction mechanisms of micromachined resonators are highlighted that includes capacitive, piezoelectric, and piezoresistive types. The book provides major design guidelines for the development of MEMS-based digital phase shifters, tunable filters, and antennas with extensive measurement data. Apart from the radio frequency (RF) requirements, an extensive guideline is given for the improvement of the reliability of micromachined switches and digital phaseshifters where multiple switches are operating simultaneously. It takes multiple iterations and extensive characterizations to conclude with a reliable MEMS digital phase shifter, and these aspects are given one of the prime attentions in this book. Detailed performance analysis of metamaterial inspired MEMS switches is then discussed for application in millimeter wave frequency bands up to about 170 GHz. The book concludes with future research activities of RF MEMS technology and its potential in space, defense, sensors, and biomedical applications.
MoreTable of Contents:
Introduction to Radio Frequency Micro Electromechanical Systems.- Micromachined Microwave Passive Circuits.- Micromachined Single-Pole-Single-Throw Switches.- Micromachined Single-Pole-Multi-Thru Switching Networks.- Micromachined Resonators and Circuits.- Micromachined Phase Shifters.- Micromachined Tunable Filters using MEMS Switches.- Reliability Analysis of RF MEMS Devices.- Micromachined Antennas.- Micromachined Metamaterial Inspired Switches.- Future Scope of RF MEMS at THz Regime.
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