Research Catalog

Circuit techniques for low-voltage and high-speed A/D converters

Title: Circuit techniques for low-voltage and high-speed A/D converters / by Mikko E. Waltari and Kari A.I. Halonen.
Author: Waltari, Mikko E.
Publication: Boston : Kluwer Academic Publishers, [2002], ©2002.

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Request for On-site Use Request Scan How do I pick up this item and when will it be ready?	Text	Request in advance	TK7887.6 .W34 2002	Off-site

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Details

Additional Authors

Halonen, K. A. I. (Kari A. I.)

Description

vii, 254 pages : illustrations; 25 cm.

Series Statement

Kluwer international series in engineering and computer science. Analog circuits and signal processing

Uniform Title

Kluwer international series in engineering and computer science ; SECS 709.
Kluwer international series in engineering and computer science. Analog circuits and signal processing.

Subjects

Bibliography (note)

Includes bibliographical references (p. 239-254) and index.

Contents

1. Introduction -- 2. Low Voltage Issues -- 1. Signal-to-Noise Ratio -- 2. Circuit Speed -- 3. Power Consumption -- 4. Matching -- 5. Operational Amplifiers -- 6. MOS Switches -- 7. Conclusions -- 3. Sample-and-Hold Operation -- 1. S/H Basics and Performance Metrics -- 2. Spectra of Sampled Signals -- 3. Noise Issues in S/H Circuits -- 4. Basic S/H Circuit Architectures -- 4. A/D Converters -- 1. A/D Conversion -- 2. Flash ADC -- 3. Subranging ADC -- 4. Folding-and-Interpolating ADC -- 5. Pipelined ADC -- 6. Time-Interleaved ADC -- 7. A/D Converters: Summary -- 5. S/H Circuit Architectures -- 1. Bipolar Architectures -- 2. CMOS Architectures -- 6. Sampling with a MOS Transistor Switch -- 1. Voltage-Dependent Turn-Off Moment -- 2. Charge Injection -- 3. Bottom Plate Sampling -- 4. Nonlinear Time Constant -- 5. Sampling Function -- 7. Operational Amplifiers -- 1. Requirements for SC Applications --
2. OTAs with Single High-Gain Stage -- 3. Two-Stage Opamps -- 8. Clock Generation -- 1. Jitter -- 2. Signal Crosstalk -- 3. Circuits -- 9. Double-Sampling -- 1. Principle -- 2. Nonidealities -- 3. Skew-Insensitive Circuit -- 10. Switched Opamp Technique -- 1. Operation Principle -- 2. Compensating for Common Mode Voltage Step -- 3. Preventing Charge Leakage from Virtual Ground -- 4. Speed -- 5. Power Supply Rejection and Noise -- 6. Switchable Opamps -- 7. Input Interfaces for SO Circuits -- 11. Other Low-Voltage Techniques -- 1. Low Voltage SC Technique with Unity-Gain-Reset Opamps -- 2. Current Sources and Mirrors -- 3. Bandgap References -- 12. Prototypes and Experimental Results -- 1. Measurement Setups and Methods -- 2. S/H Circuit Using Double-Sampling -- 3. Timing Skew-Insensitive Double-Sampling S/H -- 4. 10-Bit, 200-MS/s Parallel Pipeline ADC -- 5. 13-Bit Self-Calibrated IF-Sampling Pipelined ADC --
6. Deglitcher for Current Steering DACs -- 7. 1st Switched Opamp Pipelined ADC -- 8. 2nd Switched Opamp Pipelined ADC -- 13. Conclusions -- App. Derivation of OTA GBW Requirement -- App. Optimum Input Capacitance -- App. Saturation Voltage.

ISBN

1402072449 (HB : alk. paper)

LCCN

2002034356

OCLC

ocm50614458
SCSB-4331083

Owning Institutions

Columbia University Libraries