This book introduces low-noise and low-power design techniques for phase-locked loops and their building blocks. It summarizes the noise reduction techniques for fractional-N PLL design and introduces a novel capacitive-quadrature coupling technique for multi-phase signal generation. The capacitive-coupling technique has been validated through silicon implementation and can provide low phase-noise and accurate I-Q phase matching, with low power consumption from a super low supply voltage. Readers will be enabled to pick one of the most suitable QVCO circuit structures for their own designs,…mehr
This book introduces low-noise and low-power design techniques for phase-locked loops and their building blocks. It summarizes the noise reduction techniques for fractional-N PLL design and introduces a novel capacitive-quadrature coupling technique for multi-phase signal generation. The capacitive-coupling technique has been validated through silicon implementation and can provide low phase-noise and accurate I-Q phase matching, with low power consumption from a super low supply voltage. Readers will be enabled to pick one of the most suitable QVCO circuit structures for their own designs, without additional effort to look for the optimal circuit structure and device parameters.
This book introduces low-noise and low-power design techniques for phase-locked loops and their building blocks. It summarizes the noise reduction techniques for fractional-N PLL design and introduces a novel capacitive-quadrature coupling technique for multi-phase signal generation. The capacitive-coupling technique has been validated through silicon implementation and can provide low phase-noise and accurate I-Q phase matching, with low power consumption from a super low supply voltage. Readers will be enabled to pick one of the most suitable QVCO circuit structures for their own designs, without additional effort to look for the optimal circuit structure and device parameters. Provides detailed introduction to noise reduction techniques for fractional-N phase-locked loop systems;Analyzes the nonlinear effect and its impact on fractional-N phase-locked loop systems;Describes a wide-band integer-N PLL and bandgap reference design for X-band radar application;Explains details of capacitive-coupling techniques for robust quadrature voltage-controlled oscillator (VCO) designs and multi-phase clock generation;Presents basic simulation techniques for quadrature VCO to guarantee robust design."
Inhaltsangabe
Introduction.- Analysis of Quantization Noise Reduction Techniques for Fractional-N PLL.- A Wide-Band 0.13µm SiGe BiCMOS PLL for X-Band Radar.- Design and Analysis of QVCO with Different Coupling Techniques.- Design and Analysis of a 0.6V QVCO with Capacitive-Coupling Technique.- Conclusions.
Introduction.- Analysis of Quantization Noise Reduction Techniques for Fractional-N PLL.- A Wide-Band 0.13µm SiGe BiCMOS PLL for X-Band Radar.- Design and Analysis of QVCO with Different Coupling Techniques.- Design and Analysis of a 0.6V QVCO with Capacitive-Coupling Technique.- Conclusions.
Introduction.- Analysis of Quantization Noise Reduction Techniques for Fractional-N PLL.- A Wide-Band 0.13µm SiGe BiCMOS PLL for X-Band Radar.- Design and Analysis of QVCO with Different Coupling Techniques.- Design and Analysis of a 0.6V QVCO with Capacitive-Coupling Technique.- Conclusions.
Introduction.- Analysis of Quantization Noise Reduction Techniques for Fractional-N PLL.- A Wide-Band 0.13µm SiGe BiCMOS PLL for X-Band Radar.- Design and Analysis of QVCO with Different Coupling Techniques.- Design and Analysis of a 0.6V QVCO with Capacitive-Coupling Technique.- Conclusions.
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