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With the ever-increasing demand on wireless spectrum by wide bandwidth applications, such as third-generation mobile phones at RF frequencies, Multipoint Video Distribution System (MVDS) and Local Multipoint Distribution System (LMDS) in the millimeter-wave frequency range, there is a growing need to exploit higher and higher frequencies. The mm-wave field has therefore become a rapidly emerging area of research.
Millimeter-Wave Integrated Circuits explores the design and implementation of mm-wave integrated circuits using MMIC (Monolithic Microwave Integrated Circuit) technology. The main focal points are, firstly, fundamental circuit analyzes of building blocks necessary for the employment of MMIC technology for mm-wavelength applications, and, secondly, circuit design methodologies associated with these building blocks. The analytical/theoretical treatment is supplemented by specific mm-wave MMIC designs of varied complexity. The circuit designs presented have been fabricated on a commercial 0.25 m m GaAs pHEMT foundry process, thereby demonstrating that high volume, high quality mm-wave MMICs can indeed become a commercial reality.
Millimeter-Wave Integrated Circuits has a broad scope, and includes detailed discussions on high frequency materials and technologies, high frequency devices and the design of high frequency circuits, giving the reader a good theoretical and practical understanding of mm-wave circuit design. Key components of mm-waves transceiver circuits are studied and evaluated. Practical MMIC realizations, targeted for transceiver applications operating near 40 GHz and 57 GHz, have been fabricated and tested. They include low noise amplifiers (LNAs), balanced diode mixer for both up and down-conversion, balanced HEMT mixer as down-converter, HEMT frequency doubler, HEMT frequency tripler and a 57 GHz transceiver using integrated building blocks. Furthermore the viability of state of the art mm-wave processes for the generation of high power levels at 100 GHz is analyzed and a design topology suitable for a practical realization is presented.
Millimeter-Wave Integrated Circuits is written to support and supplement university mm-wave and high-frequency IC design courses, as well as serving as a reference for researchers and professional high frequency design engineers working in this exciting field of mm-wave integrated circuits.
Millimeter-Wave Integrated Circuits explores the design and implementation of mm-wave integrated circuits using MMIC (Monolithic Microwave Integrated Circuit) technology. The main focal points are, firstly, fundamental circuit analyzes of building blocks necessary for the employment of MMIC technology for mm-wavelength applications, and, secondly, circuit design methodologies associated with these building blocks. The analytical/theoretical treatment is supplemented by specific mm-wave MMIC designs of varied complexity. The circuit designs presented have been fabricated on a commercial 0.25 m m GaAs pHEMT foundry process, thereby demonstrating that high volume, high quality mm-wave MMICs can indeed become a commercial reality.
Millimeter-Wave Integrated Circuits has a broad scope, and includes detailed discussions on high frequency materials and technologies, high frequency devices and the design of high frequency circuits, giving the reader a good theoretical and practical understanding of mm-wave circuit design. Key components of mm-waves transceiver circuits are studied and evaluated. Practical MMIC realizations, targeted for transceiver applications operating near 40 GHz and 57 GHz, have been fabricated and tested. They include low noise amplifiers (LNAs), balanced diode mixer for both up and down-conversion, balanced HEMT mixer as down-converter, HEMT frequency doubler, HEMT frequency tripler and a 57 GHz transceiver using integrated building blocks. Furthermore the viability of state of the art mm-wave processes for the generation of high power levels at 100 GHz is analyzed and a design topology suitable for a practical realization is presented.
Millimeter-Wave Integrated Circuits is written to support and supplement university mm-wave and high-frequency IC design courses, as well as serving as a reference for researchers and professional high frequency design engineers working in this exciting field of mm-wave integrated circuits.
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