Published October 26, 2005
by Springer .
Written in English
Springer Series in Advanced Microelectronics
|The Physical Object|
|Number of Pages||129|
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 : Springer-Verlag Berlin Heidelberg. Low Power VCO Design in CMOS. This work covers the design of CMOS fully integrated low power low phase noise voltage controlled oscillators for telecommunication or datacommuni- tion systems. The need for low power is obvious, as mobile wireless telecommunications are battery operated.5/5(1). VCO Basics.- Tank Properties.- VCO Design Theory.- Low Power Low Phase Noise VCO Design.- MOS Transistors.- Inductors.- Capacitors.- VCO Design Guide.- GHz Fully Integrated CMOS VCO for GSM.- GHz Quadrature VCO Design for DCS and GSM.- A Fully Integrated 51GHz VCO in ?m CMOS.- Dual Band 1 GHz / 2 GHz VCO Design.- General Conclusion. Low power low phase noise VCO design --Part II. CMOS devices for VCO design: MOS transistors Inductors Capacitors --Part III. Fully integrated VCO designs: VCO design guide GHz fully integrated CMOS VCO for GSM GHz quadrature VCO design for DCS and GSM A fully integrated 51 GHz VCO in um.
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. Low Power VCO Design in CMOS by Marc Tiebout Product Details: Hardcover: pages Publisher: Springer; 1 edition (Octo ) Language: English ISBN ISBN Amazon Price: $ Click here to buy this book Click here to preview this book. A voltage controlled oscillator (VCO) is an electrical circuit that produces an oscillatory output Complementary metal–oxide–semiconductor (CMOS) Complementary metal–oxide–semiconductor (CMOS) is a technology for constructing integrated Two important characteristics of CMOS devices are high noise immunity and low static power. Proper amplitude, power consumption and low phase noise are three key criteria to achieve good performance for a VCO in the transceiver . The voltage controlled oscillators (VCO) designed in different CMOS technologies have become a real solution in the range of radio frequencies because of the low power consumption and low phase noise values.
In addition to theoretical analysis, a low-power, low-voltage X-band VCO using these two techniques has also been implemented in a standard µm CMOS technology. This VCO exhibits good FOM and of dBc/Hz while the core circuit draws a DC current of mA from V low . Low Power Low Jitter CMOS Ring VCO Design with Strategy based on EKV Model Amine AYED and Hamadi GHARIANI LETI Laboratory-ENIS Sfax, Tunisia Abstract—In synthesizer offers a tuning range of to GHz for 16 this paper, the design of micro-power CMOS ring VCO with minimum jitter intended for a concept of. A low-power, low-phase noise, high tuning range, and fully integrated inductorless RC-VCO (voltage-controlled oscillator) for OC application is designed and simulated in standard m CMOS. the wide band CMOS VCO based on the common source transformer feedback topology can achieves the high per-formance in the low voltage and low phase noise. The measurement result of the VCO exhibits the figure of merit, core power consumption and output power at supply voltage V are – dBc/Hz, mW and – dBm, respectively.