Design Techniques for High-Resolution Current-Mode Sigma-Delta Modulators

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Design Techniques for High-Resolution Current-Mode Sigma-Delta Modulators

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Title: Design Techniques for High-Resolution Current-Mode Sigma-Delta Modulators Author: vld Last modified by: Peter Feng Created Date: 5/25/1998 12:53:18 AM – PowerPoint PPT presentation

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Title: Design Techniques for High-Resolution Current-Mode Sigma-Delta Modulators

1
Design Techniques for High-Resolution
Current-Mode Sigma-Delta Modulators
2
Outlines

Introduction
Current-Memory Modulator Architecture
Current-Memory Cell Design
Modulator Architecture
Chip Architecture
Experimental Results
Conclusion

3
Introduction

Current Memory
Compatible with Digital Technology
Obstacles Noise, Gain Error, Nonlinearity
Nonlinearity
Presence of Out-of-band Noise with Large
Amplitudes in the Modulator
Mash 2-1 Modulator Architecture
Stability While Providing Higher Order Noise
Shaping

4
Elementary Two-Input Current-Memory Cell

The Sum of Input Current during Acquisition Phase
The Memorized Current at the Output during
Restoration Phase
Output Current gt Inverted Sum of the Input
Current

5
First-Order and Second-Order Noise-Shaped
Modulator
6
Some Different Noise-Shaped Transfer Function
7
A Second-Order MASH modulator
8
A Current-Memory Implementation of the MASH 2-1
Architecture
9
Comments for MASH 2-1 Architecture

Using Two Phase Integrator
Advantage
50 Increase in the clock speed
Reduction of the Noise Power, Gain Error,
Nonlinearity, and Settling Error
Stability

10
Typical Current-Memory Cell Design
11
Typical Current Memory Cell Design (Cont.)

Main Problems
Early Effect
Vg2 is a nonlinear function of the Iin2.
Vg2 and Sw12 make the drain voltage of Mm1 a
nonlinear function of the output current of
cell1.
Settling Error on Vg2
Charge Injection on Cg2

12
Typical Current Memory Cell Design (Cont.)

Main Solutions
Two-Step Approach
Common Gate Stage
High Output Impedance
Long Settling Times to Minimize Contribution
Large Capacitance (100pF, 37pF)

13
Final Current-Memory Cell Design
14
Modified Current-Memory MASH 2-1 Modulator
Architecture
15
Pseudodifferential Modulator Configuration
16
Measured Output Power-Spectrum for fs640kHz and
an Input Amplitude-10 dB
17
Measured Total SNDR for fs640kHz
18
Summary of Measured Results

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