Ebook: Low Power VCO Design in CMOS
- Tags: Electronics and Microelectronics Instrumentation, Solid State Physics and Spectroscopy, Communications Engineering Networks
- Series: Springer Series in advanced microelectronics 20
- Year: 2006
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
The performance of voltage controlled oscillators (VCO) is of extreme importance for any telecommunication or data communication system. This practical guide develops a systematic, fully-integrated LC-VCO design for low power and low phase noise, especially useful to meet the demands on mobile devices such as cell phones. The proposed VCO design approaches are experimentally verified with several fully integrated CMOS VCOs. The concise presentation is offered in three parts (VCO design; CMOS devices for VCO design; and fully-integrated CMOS DESIGNS) and supplemented by an appendix summarizing the state of the art.
The performance of voltage controlled oscillators (VCO) is of extreme importance for any telecommunication or data communication system. This practical guide develops a systematic, fully-integrated LC-VCO design for low power and low phase noise, especially useful to meet the demands on mobile devices such as cell phones. The proposed VCO design approaches are experimentally verified with several fully integrated CMOS VCOs. The concise presentation is offered in three parts (VCO design; CMOS devices for VCO design; and fully-integrated CMOS DESIGNS) and supplemented by an appendix summarizing the state of the art.
The performance of voltage controlled oscillators (VCO) is of extreme importance for any telecommunication or data communication system. This practical guide develops a systematic, fully-integrated LC-VCO design for low power and low phase noise, especially useful to meet the demands on mobile devices such as cell phones. The proposed VCO design approaches are experimentally verified with several fully integrated CMOS VCOs. The concise presentation is offered in three parts (VCO design; CMOS devices for VCO design; and fully-integrated CMOS DESIGNS) and supplemented by an appendix summarizing the state of the art.
Content:
Front Matter....Pages I-XI
VCO Basics....Pages 3-12
Tank Properties....Pages 13-17
VCO Design Theory....Pages 19-26
Low Power Low Phase Noise VCO Design....Pages 27-31
MOS Transistors....Pages 35-38
Inductors....Pages 39-54
Capacitors....Pages 55-65
VCO Design Guide....Pages 69-75
1.3GHz Fully Integrated CMOS VCO for GSM....Pages 77-81
1.8GHz Quadrature VCO Design for DCS1800 and GSM....Pages 83-90
A Fully Integrated 51GHz VCO in 0.13 ?m CMOS....Pages 91-97
Dual Band 1 GHz / 2 GHz VCO Design....Pages 99-107
General Conclusion....Pages 111-111
Back Matter....Pages 113-129
The performance of voltage controlled oscillators (VCO) is of extreme importance for any telecommunication or data communication system. This practical guide develops a systematic, fully-integrated LC-VCO design for low power and low phase noise, especially useful to meet the demands on mobile devices such as cell phones. The proposed VCO design approaches are experimentally verified with several fully integrated CMOS VCOs. The concise presentation is offered in three parts (VCO design; CMOS devices for VCO design; and fully-integrated CMOS DESIGNS) and supplemented by an appendix summarizing the state of the art.
Content:
Front Matter....Pages I-XI
VCO Basics....Pages 3-12
Tank Properties....Pages 13-17
VCO Design Theory....Pages 19-26
Low Power Low Phase Noise VCO Design....Pages 27-31
MOS Transistors....Pages 35-38
Inductors....Pages 39-54
Capacitors....Pages 55-65
VCO Design Guide....Pages 69-75
1.3GHz Fully Integrated CMOS VCO for GSM....Pages 77-81
1.8GHz Quadrature VCO Design for DCS1800 and GSM....Pages 83-90
A Fully Integrated 51GHz VCO in 0.13 ?m CMOS....Pages 91-97
Dual Band 1 GHz / 2 GHz VCO Design....Pages 99-107
General Conclusion....Pages 111-111
Back Matter....Pages 113-129
....