This paper reports design, optimization, efficiency and measurement results of the 12 bits dual-residue multi-step A/D converter. The calibration procedure based on the steepest-descent estimation method is enhanced with dedicated embedded sensors, which register on-chip process parameter and temperature variations. The prototype A/D converter with performance of 68.6 dB SNDR, 70.3 dB SNR, 78.1 dB SFDR, 11.1 ENOB at 60 MS/s has been fabricated in standard single poly, six metal 90 nm CMOS, consumes only 55 mW and measures 0.75 mm2. The on-chip calibration logic occupies an area of 0.14 mm2 and consumes 11 mW of power
This dissertation presents the design of three high-performance successive-approximation-register (S...
A low power, low voltage current mode 9 bit pipelined a/d converter and 8 bit self-calibrated d/a co...
Herein, we present an energy efficient successive-approximation-register (SAR) analog-to-digital con...
This paper reports design, optimization, efficiency and measurement results of the 12 bits dual-resi...
With the fast advancement of CMOS fabrication technology, more and more signal-processing functions ...
Monolithic A/D and D/A converters suffer from the limited accuracy of the available circuit componen...
A novel digital technique for efficient calibration of static errors in high-speed, high-resolution,...
Abstract — A novel digital technique for efficient calibration of static errors in high-speed, high-...
A low power (6.8 mW) 5 V analog 2.7 V digital 16 bit 200 kS/s charge redistribution self calibrating...
The continuous effort to improve the performance of analog-to-digital converters (ADC) has led the d...
Monolithic A/D and D/A converters suffer from the limited accuracy of the available circuit componen...
Modern digital communication systems target satisfying multiple standards and different operating sc...
This paper describes an algorithmic A D converter which employs digital error correction and self-ca...
The integration of digital and analog systems on single CMOS integrated circuits will continue to be...
© 2013 Dr. Anh Trong HuynhThis thesis presents the design and implementation of an 11-bit 50-MS/s su...
This dissertation presents the design of three high-performance successive-approximation-register (S...
A low power, low voltage current mode 9 bit pipelined a/d converter and 8 bit self-calibrated d/a co...
Herein, we present an energy efficient successive-approximation-register (SAR) analog-to-digital con...
This paper reports design, optimization, efficiency and measurement results of the 12 bits dual-resi...
With the fast advancement of CMOS fabrication technology, more and more signal-processing functions ...
Monolithic A/D and D/A converters suffer from the limited accuracy of the available circuit componen...
A novel digital technique for efficient calibration of static errors in high-speed, high-resolution,...
Abstract — A novel digital technique for efficient calibration of static errors in high-speed, high-...
A low power (6.8 mW) 5 V analog 2.7 V digital 16 bit 200 kS/s charge redistribution self calibrating...
The continuous effort to improve the performance of analog-to-digital converters (ADC) has led the d...
Monolithic A/D and D/A converters suffer from the limited accuracy of the available circuit componen...
Modern digital communication systems target satisfying multiple standards and different operating sc...
This paper describes an algorithmic A D converter which employs digital error correction and self-ca...
The integration of digital and analog systems on single CMOS integrated circuits will continue to be...
© 2013 Dr. Anh Trong HuynhThis thesis presents the design and implementation of an 11-bit 50-MS/s su...
This dissertation presents the design of three high-performance successive-approximation-register (S...
A low power, low voltage current mode 9 bit pipelined a/d converter and 8 bit self-calibrated d/a co...
Herein, we present an energy efficient successive-approximation-register (SAR) analog-to-digital con...