Presentation is loading. Please wait.

Presentation is loading. Please wait.

MB Page1Mihai Banu, July 2002 WCR #7 Nyquist rate ADC Main design motivation: Low Power Features: Pipeline arquitecture. Two interleaved ADCs with shared.

Published byLilliana Heald Modified over 9 years ago

Similar presentations

Presentation on theme: "MB Page1Mihai Banu, July 2002 WCR #7 Nyquist rate ADC Main design motivation: Low Power Features: Pipeline arquitecture. Two interleaved ADCs with shared."— Presentation transcript:

1 MB Page1Mihai Banu, July 2002 WCR #7 Nyquist rate ADC Main design motivation: Low Power Features: Pipeline arquitecture. Two interleaved ADCs with shared opamps: Efficient use of the most power demanding blocks. 1.5 bits/stage and digital correction: Relaxed comparator design. Good linearity. Target Specifications: 40 Msamples/sec. 10-bit resolution. Distortion and Noise below –60 dB.

2 MB Page2Mihai Banu, July 2002 WCR #7 Nyquist rate ADC Pipeline ADC Test chip 4K devices 0.25  m CMOS SIMULATION RESULTS Power: 12 mW @ 2.5 V (~2/3 less than publishied ADCs) INL: 0.38 LSB  -62 dB Harm. Dist.

3 MB Page3Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA Experimental Setup:

4 MB Page4Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA Measured Results: Sampling Rate: 40 MHz (still running @ 60 MHz) Latency:12 cycles (300 ns) Power: ADC: 13.87 mW (5.55 mA @ 2.5V) Pin Drivers: 1.32 mW (0.4 mA @ 3.3V) Distortion:0.3 to 0.65 LSBs ENOB:9.4 bits (from distortion)

5 MB Page5Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA Single-Tone test Low Freq. (20 KHz) Very low Distortion

6 MB Page6Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA 2-Tone test Low Freq. (100 KHz) Very low Distortion

7 MB Page7Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA 2-Tone test High Freq. (19.5 MHz) Still good Linearity

8 MB Page8Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA 2-Tone test High Freq. (20 MHz) 60 MHz CLK (50% Overclock) Still running

9 MB Page9Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA LINEARITY from Code Density Histogram (Doernberg et al.) 60 KHz input Too much ripples (bad code coverage?) Monotonic, no missing codes.

10 MB Page10Mihai Banu, July 2002 WCR #7 ADC: Experimental DATA LINEARITY from Code Density Histogram (Doernberg et al.) 20 KHz input (not full-scale) MAX DNL = 0.38 LSB MAX INL = 0.65 LSB  (INL) = 0.3 LSB

Download ppt "MB Page1Mihai Banu, July 2002 WCR #7 Nyquist rate ADC Main design motivation: Low Power Features: Pipeline arquitecture. Two interleaved ADCs with shared."

Similar presentations

Analog to Digital Conversion (ADC)

Analog to Digital Conversion (ADC)
Data Acquisition ET 228 Chapter

Data Acquisition ET 228 Chapter
EE435 Final Project: 9-Bit SAR ADC

EE435 Final Project: 9-Bit SAR ADC
Fischer 08 1 Analog to Digital Converters Nyquist-Rate ADCs  Flash ADCs  Sub-Ranging ADCs  Folding ADCs  Pipelined ADCs  Successive Approximation.

Fischer 08 1 Analog to Digital Converters Nyquist-Rate ADCs  Flash ADCs  Sub-Ranging ADCs  Folding ADCs  Pipelined ADCs  Successive Approximation.
Mixed Signal Chip Design Lab Analog-to-Digital Converters Jaehyun Lim, Kyusun Choi Department of Computer Science and Engineering The Pennsylvania State.

Mixed Signal Chip Design Lab Analog-to-Digital Converters Jaehyun Lim, Kyusun Choi Department of Computer Science and Engineering The Pennsylvania State.
System Aspects of ADC Design

System Aspects of ADC Design
18/05/2015 Calice meeting Prague 2007 1 Status Report on ADC LPC ILC Group.

18/05/2015 Calice meeting Prague Status Report on ADC LPC ILC Group.
Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6 μm CMOS Process Eri Prasetyo.

Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6 μm CMOS Process Eri Prasetyo.
DNC, GEC & Non-linear Interpolation DNC, GEC & Non-linear interpolation A Review of ”A Digitally Enhanced 1.8V 15-bit 40-MSample/s CMOS.

DNC, GEC & Non-linear Interpolation DNC, GEC & Non-linear interpolation A Review of ”A Digitally Enhanced 1.8V 15-bit 40-MSample/s CMOS.
Current-Mode Multi-Channel Integrating ADC Electrical Engineering and Computer Science Advisor: Dr. Benjamin J. Blalock Neena Nambiar 16 st April 2009.

Current-Mode Multi-Channel Integrating ADC Electrical Engineering and Computer Science Advisor: Dr. Benjamin J. Blalock Neena Nambiar 16 st April 2009.
1 A New Successive Approximation Architecture for Low-Power Low-Cost A/D Converter IEEE JOURNAL OF SOLID-STATE CIRCUITS, VOL.38, NO.1, JANUARY 2003 Chi-sheng.

1 A New Successive Approximation Architecture for Low-Power Low-Cost A/D Converter IEEE JOURNAL OF SOLID-STATE CIRCUITS, VOL.38, NO.1, JANUARY 2003 Chi-sheng.
– 1 – Data Converters Data Converter BasicsProfessor Y. Chiu EECT 7327Fall 2014 Data Converter Basics.

– 1 – Data Converters Data Converter BasicsProfessor Y. Chiu EECT 7327Fall 2014 Data Converter Basics.
Development of Final Year projects Group Members: Prof. Suman David, Prof. Mathivanan, Prof. S.N. Bhat, Kalpana Bhat, Prof.Manu T.M, Prof. Kishore Kumar.

Development of Final Year projects Group Members: Prof. Suman David, Prof. Mathivanan, Prof. S.N. Bhat, Kalpana Bhat, Prof.Manu T.M, Prof. Kishore Kumar.
Introduction to Analog-to-Digital Converters

Introduction to Analog-to-Digital Converters
– 1 – Data ConvertersDACProfessor Y. Chiu EECT 7327Fall 2014 DAC Architecture.

– 1 – Data ConvertersDACProfessor Y. Chiu EECT 7327Fall 2014 DAC Architecture.
Digital to Analogue Conversion Natural signals tend to be analogue Need to convert to digital.

Digital to Analogue Conversion Natural signals tend to be analogue Need to convert to digital.
L. Gallin-Martel, D. Dzahini, F. Rarbi, O. Rossetto

L. Gallin-Martel, D. Dzahini, F. Rarbi, O. Rossetto
Understanding ADC Specifications September 2005. 2 Definition of Terms 000 Analogue Input Voltage 001 010 011 100 101 110 111 Digital Output Code FS1/2.

Understanding ADC Specifications September Definition of Terms 000 Analogue Input Voltage Digital Output Code FS1/2.
1 A 252Kgates/4.9Kbytes SRAM/71mW Multi-Standard Video Decoder for High Definition Video Applications Motivation A variety of video coding standards Increasing.

1 A 252Kgates/4.9Kbytes SRAM/71mW Multi-Standard Video Decoder for High Definition Video Applications Motivation A variety of video coding standards Increasing.
FE8113 ”High Speed Data Converters”. Part 2: Digital background calibration.

FE8113 ”High Speed Data Converters”. Part 2: Digital background calibration.

Similar presentations

Ads by Google