Phase locked loops (PLLs) are electronic circuits that ensure that a communications signal stays locked on a given frequency. Their design is crucial to the workings of wireless communications systems. Virtually all transceivers use PLLs to synthesize the stable, high frequency oscillations necessary for radio & wireless. This book describes how to calculate PLL performances by using standard mathematical or circuit analysis programs. Theoretical descriptions are limited to the minimum needed to explain how to perform calculations. Although presented methods of analysis can be implemented with many commercial programs, their description always refers to Mathcad and SIMetrix.
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CD-ROM with analyses in MATHCAD and SIMETRIX
A COMPLETE TOOLKIT FOR PLL SYNTHESIZER DESIGN
This book/CD-ROM package provides the analysis and algorithms necessary to perform sophisticated PLL calculations and simulation exercises required for today’s advanced communications equipment.
Delivering all the tools readers need to begin solving their own design challenges immediately, Phase-Locked Loop Synthesizer Simulation offers:
THE DATA NEEDED TO GENERATE PLL SOLUTIONS
PLL working principles * Laplace and Fourier transforms * Transforms of some important functions * PLL transfer functions * PLL stability analysis * PLL order and PLL type * First-order PLL * Second-order PLL * Loop components * Phase detector * Multiplier as phase detector * Phase frequency detector * Dead zone * PFD spurs * Charge pump * Sampled PLL * Loop filter * Reference spur filtering * Loop filters for voltage output phase detectors * Loop filters for charge pump * Loop filter scaling * VCO * Frequency dividers * Frequency divider phase noise * Fractional-N frequency divider * Single-accumulator fractional divider * Multiple-accumulator fractional dividers * Z transform * First-order Σ--Δ modulator * Higher-order Σ--Δ converters * Synthesizer performance simulation * Simulation techniques * Phase noise of PLL synthesizer * Modulation of the PLL * Modulation of the reference oscillator only * Modulation of the VCO only * Dual-point modulation * Settling time * Lock-in * Pull-in * PLL performance verification * Measurement of PLL frequency response magnitude * Sampling phase detector * Multiple-loop PLL * Phase noise of multiple-loop PLL * Transients in multiple-loop PLL * Variations on double-loop architecture * Direct digital synthesizer * Principle of DDS operation * Effects of nonideal components on DDS performance * Enhancements of DDS architecture
Giovanni Bianchi is a senior microwave engineer at SDS Technology in Rome, Italy, and a frequent speaker at professional gatherings such as the European Microwave Conference and IEEE MTT symposia. He was previously a principal staff engineer with Motorola PCS where he disclosed six PLL-related circuits. A reviewer of the IEEE Microwave and Guided Wave Letter since 1995, Mr. Bianchi is also a reviewer for IEEE Microwave Magazine.
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Book Description McGraw-Hill Professional, 2005. Hardcover. Book Condition: New. 1. Bookseller Inventory # DADAX0071453717
Book Description McGraw-Hill Professional 2005-03-09, 2005. Hardcover. Book Condition: New. 1. 0071453717. Bookseller Inventory # 498881
Book Description McGraw-Hill Professional, 2005. Hardcover. Book Condition: New. Bookseller Inventory # SONG0071453717
Book Description McGraw-Hill Professional, 2005. Hardcover. Book Condition: New. Bookseller Inventory # P110071453717