CMOS-based circuits operating at mm-wave frequencies have emerged in the past few years. This paper discusses the integration of a 60GHz CMOS single-chip transmitter and a single- chip receiver using a standard 90nm CMOS technology demonstrating a reliable solution for 60GHz single-chip radio. Proper transistor layout, complete and accurate modeling and optimized parasitic extraction method enabled the robust design of the wideband super-heterodyne architecture to support the entire 57- to-66GHz band. The analog radio front-end is controlled by a serial digital interface and has been co-designed and integrated together with a high-speed digital signal processor including analog-to-digital conversion, high speed PHY signal processing such as...
Empirical thesis.Bibliography: pages 223-238.1. Introduction -- 2. Silicon technology -- 3. Transmit...
Simulated results for a silicon germanium transmitter operating at 60 GHz are presented. The super-h...
© 2016 Elsevier Inc. All rights reserved. Today's wireless communication systems typically operate a...
A 60GHz single-chip CMOS radio has been fully integrated using standard 90nm CMOS process technology...
The past few years have witnessed the emergence of CMOS based circuits operating at millimeter wave-...
In this paper, we present four examples of highly integrated 60 GHz single-chip CMOS 90 nm digital r...
Today s electronic communication possibilities and applications are endless. However, only 150 years...
The 60GHz band is promising for applications such as high-speed short-range wireless personal-area n...
© Copyright 2005 IEEEUp to 7 GHz of continuous bandwidth centred around 60 GHz has been allocated wo...
The past few years has witnessed the emergence of CMOS based circuits operating at millimeter wave-f...
In the past few years, silicon mm-wave, especially 60GHz CMOS design has experienced a transition fr...
Operation at millimeter-wave frequency, where up to 7GHz of unlicensed bandwidth is available in the...
The 60GHz band is promising for applications such as high-speed short-range wireless personal area n...
Research in the mm-wave band using CMOS and SiGe technologies has gained momentum over the past few ...
Recent advancements in silicon technology have paved the way for the development of integrated trans...
Empirical thesis.Bibliography: pages 223-238.1. Introduction -- 2. Silicon technology -- 3. Transmit...
Simulated results for a silicon germanium transmitter operating at 60 GHz are presented. The super-h...
© 2016 Elsevier Inc. All rights reserved. Today's wireless communication systems typically operate a...
A 60GHz single-chip CMOS radio has been fully integrated using standard 90nm CMOS process technology...
The past few years have witnessed the emergence of CMOS based circuits operating at millimeter wave-...
In this paper, we present four examples of highly integrated 60 GHz single-chip CMOS 90 nm digital r...
Today s electronic communication possibilities and applications are endless. However, only 150 years...
The 60GHz band is promising for applications such as high-speed short-range wireless personal-area n...
© Copyright 2005 IEEEUp to 7 GHz of continuous bandwidth centred around 60 GHz has been allocated wo...
The past few years has witnessed the emergence of CMOS based circuits operating at millimeter wave-f...
In the past few years, silicon mm-wave, especially 60GHz CMOS design has experienced a transition fr...
Operation at millimeter-wave frequency, where up to 7GHz of unlicensed bandwidth is available in the...
The 60GHz band is promising for applications such as high-speed short-range wireless personal area n...
Research in the mm-wave band using CMOS and SiGe technologies has gained momentum over the past few ...
Recent advancements in silicon technology have paved the way for the development of integrated trans...
Empirical thesis.Bibliography: pages 223-238.1. Introduction -- 2. Silicon technology -- 3. Transmit...
Simulated results for a silicon germanium transmitter operating at 60 GHz are presented. The super-h...
© 2016 Elsevier Inc. All rights reserved. Today's wireless communication systems typically operate a...