Phase Locked Loops

Phase-Locked Loops for Wireless Communications [Repost]  eBooks & eLearning

Posted by tanas.olesya at March 9, 2016
Phase-Locked Loops for Wireless Communications [Repost]

Phase-Locked Loops for Wireless Communications: Digital, Analog and Optical Implementations by Donald R. Stephens
English | 30 Nov. 2001 | ISBN: 0792376021 | 436 Pages | PDF | 11 MB

Phase-Locked Loops for Wireless Communications: Digitial, Analog and Optical Implementations, Second Edition presents a complete tutorial of phase-locked loops from analog implementations to digital and optical designs.
Donald R. Stephens, "Phase-Locked Loops for Wireless Communications: Digital, Analog and Optical Implementations"(repost)

Donald R. Stephens, "Phase-Locked Loops for Wireless Communications: Digital, Analog and Optical Implementations"
ISBN: 0792376021 | edition 2001 | PDF | 343 pages | 11,6 mb

Phase-Locked Loops for Wireless Communications: Digitial, Analog and Optical Implementations, Second Edition presents a complete tutorial of phase-locked loops from analog implementations to digital and optical designs. The text establishes a thorough foundation of continuous-time analysis techniques and maintains a consistent notation as discrete-time and non-uniform sampling are presented. New to this edition is a complete treatment of charge pumps and the complementary sequential phase detector.
Roland E. Best - Phase-Locked Loops : Design, Simulation, and Applications, 5th edition [Repost]

Roland E. Best - Phase-Locked Loops : Design, Simulation, and Applications, 5th edition
2003 | ISBN: 0071412018 | English | 500 pages | PDF | 7 MB
Low-Noise Low-Power Design for Phase-Locked Loops: Multi-Phase High-Performance Oscillators (repost)

Low-Noise Low-Power Design for Phase-Locked Loops: Multi-Phase High-Performance Oscillators by Feng Zhao and Fa Foster Dai
English | 2014 | ISBN: 3319121995 | 96 pages | PDF | 9 MB
Equations of Phase-Locked Loops: Dynamics on the Circle, Torus and Cylinder

Equations of Phase-Locked Loops: Dynamics on the Circle, Torus and Cylinder by Jacek Kudrewicz, Stefan Wasowicz
English | 2007 | ISBN: 9812770909, 9812770917 | 236 pages | PDF | 3,4 MB
Low-Noise Low-Power Design for Phase-Locked Loops: Multi-Phase High-Performance Oscillators

Low-Noise Low-Power Design for Phase-Locked Loops: Multi-Phase High-Performance Oscillators by Feng Zhao and Fa Foster Dai
English | 2014 | ISBN: 3319121995 | 96 pages | PDF | 9 MB
Phase-Locked Loops: Design, Simulation, and Applications by Roland E. Best [Repost]

Phase-Locked Loops: Design, Simulation, and Applications by Roland E. Best
English | | ISBN: 0071349030 | 408 pages | PDF | MB

Phase-locked loops are a type of circuit used to "lock on" to frequencies in telecommunication systems. The fourth edition of this guide brings readers up to date with innovations in the field, with new material on digital PLLs and a new chapter on PLL intergrated circuits.
Phase-Locked Loops: Engineering Handbook for Integrated Circuits (repost)

Phase-Locked Loops: Engineering Handbook for Integrated Circuits
by Stanley J. Goldman
English | 2007 | ISBN: 159693154X | 586 pages | PDF | 12.84 MB

60-GHz CMOS Phase-Locked Loops (repost)  

Posted by interes at Aug. 22, 2014
60-GHz CMOS Phase-Locked Loops (repost)

60-GHz CMOS Phase-Locked Loops by Hammad M. Cheema, Reza Mahmoudi, Arthur H. M. van Roermund
English | ISBN: 904819279X | 2010 | PDF | 218 pages | 3,2 mb

The promising high data rate wireless applications at millimeter wave frequencies in general and 60 GHz in particular have gained much attention in recent years. However, challenges related to circuit, layout and measurements during mm-wave CMOS IC design have to be overcome before they can become viable for mass market.
Frequency Acquisition Techniques for Phase Locked Loops (repost)

Frequency Acquisition Techniques for Phase Locked Loops by Daniel B. Talbot
English | 2012 | ISBN-10: 1118168100 | PDF | 224 pages | 6 MB

How to acquire the input frequency from an unlocked state.
A phase locked loop (PLL) by itself cannot become useful until it has acquired the applied signal's frequency. Often, a PLL will never reach frequency acquisition (capture) without explicit assistive circuits.