A 15-bit 10-Msample/s Pipelined A/D Converter Based on Incomplete Settling Principle(Modelling, Systems and Simulation,<Special Section>Nonlinear Theory and its Applications)
スポンサーリンク
概要
- 論文の詳細を見る
This paper proposes a 15-bit 10-MS/s pipelined ADC based on the incomplete settling principle. The traditional complete settling stage is improved to the incomplete settling structure through dividing the sampling clock of the traditional stage into two parts for discharging the sampling and feedback capacitors and completing the sampling, respectively. The proposed ADC verifies the correction and validity of optimizing ADCs' conversion speed without additional power consumption through the incomplete settling. This ADC employs scaling-down scheme to achieve low power dissipation and utilizes full-differential structure, bottom-plate-sampling, and capacitor-sharing techniques as well as bit-by-bit digital self-calibration to increase the ADC's linearity. It is processed in 0.18μm 1P6M CMOS mixed-mode technology. Simulation results show that 82dB SNDR and 87dB SFDR are obtained at the sampling rate of 10MHz with the input sine frequency of 100kHz and the whole static power dissipation is 21.94mW.
- 社団法人電子情報通信学会の論文
- 2006-10-01
著者
-
Inoue Yasuaki
Graduate School Of Information Production And Systems Waseda University
-
Inoue Yasuaki
Graduate School Of Ips Waseda University
-
WANG Shuaiqi
Graduate School of Information, Production and Systems, Waseda University
-
LI Fule
Tsinghua University
-
Wang Shuaiqi
Graduate School Of Information Production And Systems Waseda University
関連論文
- A Low-Power Sub-1-V Low-Voltage Reference Using Body Effect(Selected Papers from the 19th Workshop on Circuits and Systems in Karuizawa)
- A Low-Power High-Speed Rail-to-Rail Class-B Buffer Amplifier for LCD Column Driver
- A Low-Power High-Speed Rail-to-Rail Class-B Output Buffer for TFT-LCD Source Driver
- A Low-Power High-Speed Rail-to-Rail Class-B Buffer Amplifier for LCD Column Driver
- A Low-Power High-Speed Rail-to-Rail Class-B Output Buffer for TFT-LCD Source Driver
- A Low-Power High-Speed Rail-to-Rail Class-B Output Buffer for TFT-LCD Source Driver
- Accurate Method for Calculating the Effective Capacitance with RC Loads Based on the Thevenin Model
- A Highly Linear and Wide Input Range Four-Quadrant CMOS Analog Multiplier Using Active Feedback
- An Effective SPICE3 Implementation of the Compound Element Pseudo-Transient Algorithm(Nonlinear Circuits,Nonlinear Theory and its Applications)
- Behavioral Circuit Macromodeling and Analog LSI Implementation for Automobile Engine Intake System(Selected Papers from the 19th Workshop on Circuits and Systems in Karuizawa)
- An Effective Pseudo-Transient Algorithm for Finding DC Solutions of Nonlinear Circuits(Modelling, Systems and Simulation,Nonlinear Theory and its Applications)
- Determination of Interconnect Structural Parameters for Best-and Worst-Case Delays(Selected Papers from the 18th Workshop on Circuits and Systems in Karuizawa)
- Formula-Based Method for Capacitance Extraction of Interconnects with Dummy Fills(Selected Papers from the 18th Workshop on Circuits and Systems in Karuizawa)
- Modeling the Influence of Input-to-Output Coupling Capacitance on CMOS Inverter Delay(Selected Papers from the 18th Workshop on Circuits and Systems in Karuizawa)
- A highly linear and wide dynamic range four-quadrant CMOS analog multiplier using active feedback (アナログ要素回路)
- Behavior macromodeling of analog LSI implementation for automobile intake system (回路とシステムの理論)
- Second-Order Polynomial Expressions for On-Chip Interconnect Capacitance(Interconnect, VLSI Design and CAD Algorithms)
- Modeling the Effective Capacitance of Interconnect Loads for Predicting CMOS Gate Slew(Prediction and Analysis, VLSI Design and CAD Algorithms)
- A Self-Biased Low-Voltage Low-Power Current/Voltage Reference Circuit With Very Low Temperature Dependence by Using Back-Gate Connection MOSFET
- A Novel Model for Computing the Effective Capacitance of CMOS Gates with Interconnect Loads(Nonlinear Theory and its Applications)
- A Pseudo-Transient Method Using Compound Elements for Finding DC Operating Points
- A pseudo-transient method using compound elements for finding DC operating points (回路とシステムの理論)
- An Effective Pseudo-transient Algorithm for Finding DC Operating Points of Nonlinear Circuits
- An Energy Management Circuit for Self-Powered Ubiquitous Sensor Modules Using Vibration-Based Energy(Nonlinear Circuits,Nonlinear Theory and its Applications)
- Efficient Dummy Filling Methods to Reduce Interconnect Capacitance and Number of Dummy Metal Fills(Interconnect, VLSI Design and CAD Algorithms)
- A Practical Approach for Efficiently Extracting Interconnect Capacitances with Floating Dummy Fills(VLSI Design Technology and CAD)
- A Novel Expression of Spatial Correlation by a Random Curved Surface Model and Its Application to LSI Design
- Efficient Large Scale Integration Power/Ground Network Optimization Based on Grid Genetic Algorithm(Power/Ground Network, VLSI Design and CAD Algorithms)
- An Initial Solution Algorithm for Globally Convergent Homotopy Methods(Selected Papers from the 16th Workshop on Circuits and Systems in Karuizawa)
- A Bulk-Current Model for Advanced MOSFET Technologies Without Binning : Substrate Current and Fowler-Nordheim Current
- A Gate-Current Model for Advanced MOSFET Technologies Implemented into HiSIM2
- A PN Junction-Current Model for Advanced MOSFET Technologies
- A 12-bit 3.7-Msample/s Pipelined A/D Converter Based on the Novel Capacitor Mismatch Calibration Technique
- AS-2-2 An Algorithmic Stage Based on the Novel Capacitor Mismatch Calibration Technique
- An algorithmic stage based on the novel capacitor mismatch calibration technique (第21回 回路とシステム軽井沢ワークショップ論文集) -- (ADC(2))
- A 15-bit 10-Msample/s Pipelined A/D Converter Based on Incomplete Settling Principle(Modelling, Systems and Simulation,Nonlinear Theory and its Applications)
- A Globally Convergent Method for Finding DC Solutions of MOS Transistor Circuits
- An Effective Implementation of the Compound Element Pseudo-transient Algorithm on SPICE3
- A Globally Convergent Method for Finding DC Solutions of MOS Transistor Circuits
- An Effective Implementation of the Compound Element Pseudo-transient Algorithm on SPICE3
- An Efficient Homotopy Method for Finding DC Operating Points of Nonlinear Circuits(Nonlinear Theory and its Applications)
- A Homotopy Method Using a Nonlinear Auxiliary Function for Solving Transistor Circuits(General and Nonlinear Circuits and Systems, Recent Advances in Circuits and Systems-Part 1)
- Path Following Circuits : SPICE-Oriented Numerical Methods Where Formulas are Described by Circuits(Selected Papers from the 17th Workshop on Circuits and Systems in Karuizawa)
- Theorems on the Unique Initial Solution for Globally Convergent Homotopy Methods(Numerical Caluculation)(Nonlinear Theory and its Applications)
- A 15-bit 10-Msample/s pipelined A/D converter based on incomplete settling principle (変換回路)
- A Non-Iterative Method for Calculating the Effective Capacitance of CMOS Gates with Interconnect Load Effect
- A sub-0.3V highly efficient CMOS rectifier for energy harvesting applications
- A Globally Convergent Nonlinear Homotopy Method for MOS Transistor Circuits
- An Effective and Globally Convergent Newton Fixed-Point Homotopy Method for MOS Transistor Circuits
- A low voltage CMOS rectifier for low power battery-less devices
- Effective Implementation and Embedding Algorithms of CEPTA Method for Finding DC Operating Points