Design of low-power area-efficient continuous-time [delta-sigma] ADC using VCO-based integrators with intrinsic CLA

Lee, Kyoungtae

22 July 2014

In this thesis, the design of a scaling-friendly continuous-time closed-loop voltage controlled oscillator (VCO) based Delta-Sigma analog to digital converter (ADC) is introduced. It uses the VCO as both quantizer and integrator, and thus, obviates the need for power-hungry scaling-unfriendly operational transconductance amplifiers (OTAs) and precision comparators. It arranges two VCOs in a pseudo-differential manner, which cancels out even-order distortions. More importantly, it brings an intrinsic clocked averaging (CLA) capability that automatically addresses digital to analog converter (DAC) mismatches. The prototype ADC in 130 nm complementary metal-oxide-semiconductor (CMOS) occupies a small area of 0.03 mm² and achieves 66.5 dB signal to noise and distortion ratio (SNDR) over 2 MHz bandwidth (BW) while sampling at 300 MHz and consuming 1.8 mW under a 1.2 V power supply. It can also operate with a low analog supply of 0.7 V and achieves 65.8 dB SNDR while consuming 1.1 mW. The corresponding figure-of-merits (FOMs) for the two cases are 0.25 pJ/conversion-step and 0.17 pJ/conversion-step, respectively. / text

Delta-sigma ADC

VCO-based

Aplicación de la reingeniería en un proceso productivo “caso de la célula de doblado 3 ½”

Zamora Antuñano, Marco Antonio, Cano López, José Antonio, Cárdenas Castillo, Silverio, Carmen de la Vega Andrade, José, Espino Velásquez, Karla, Zavala Ramírez, José, Muñoz Zaragoza, Francisco

11 November 2014

Este trabajo es la aplicación de un proyecto de reingeniería en una planta manufacturera de partes y componentes automotrices ubicada en la ciudad de Querétaro.El proyecto fue desarrollado por un grupo de estudiantes de la Maestría en Administración de Sistemas de Calidad de la Universidad del Valle de México. Para la implantación y solución utilizaron metodología six sigma y los resultaron obtenidos satisfactorios desde el principio. Se utilizaron diferentes herramientas de aplicación delas teorías de la calidad total.

Reingeniería

Mejora continua

Six sigma

Účast alternativních sigma faktorů RNA polymerasy při regulaci exprese genů Corynebacterium glutamicum / The role of alternative sigma factors of RNA polymerase in regulation of gene expression in Corynebacterium glutamicum

Šilar, Radoslav

January 2016

Abstract Regulation of transcription by extracytoplasmic-function (ECF) sigma factors of RNA polymerase is an efficient way of cell adaptation to diverse environmental stresses. Amino acid-producing gram-positive bacterium Corynebacterium glutamicum codes for seven sigma factors: the primary sigma factor SigA, the primary-like sigma factor SigB and five ECF stress- responsive sigma factors (SigC, SigD, SigE, SigH and SigM). The sigH gene encoding SigH sigma factor is located in a gene cluster together with the rshA gene, encoding the anti-sigma factor of SigH. Anti-sigma factors bind to their cognate sigma factors and inhibit their transcriptional activity. Under the stress conditions the binding is released allowing the sigma factors to bind to the RNAP core enzyme. In this thesis, regulation of expression of genes encoding the most important ECF sigma factor SigH and its anti-sigma factor RshA as well as genes belonging to the SigH-regulon were mainly studied. The transcriptional analysis of the sigH-rshA operon revealed four housekeeping promoters of the sigH gene and one SigH-dependent promoter of the rshA gene. For testing the role of the complex SigH-RshA in gene expression, the C. glutamicum ΔrshA strain was used for genome-wide transcription profiling with DNA Microarrays technique under...

Využití koncepce Six Sigma v odděleních finanční instituce

Šrámková, Dana

January 2007

Tato diplomová práce pojednává o využití koncepce Six Sigma ve finanční instituci. Konkrétně bylo sledováno využití Six Sigmy na oddělení Správy pohledávek a na Zákazanické lince. V obou případech byly nastavovány procesy příchozích hovorů na tato oddělení. Procesy byly nastavovány pomocí metody DMAIC. Z práce jsou zřejmá zlepšení po implementaci změn. Součástí diplomové práce jsou detailní analýzy příchozích hovorů a defektů při jejich přijímání.

Six Sigma; DMAIC; CTQ; VOC

A Model for Management Aboard Medium and High Endurance Coast Guard Cutters

Stewart, Michael S.

01 January 2009

Increased DHS mission requirements in a post 911 operating environment and federal mandates requiring measurable results dictate commanders of USCG Cutters and the chain of command employ the most efficient management mechanisms to best utilize scarce resources. United States Coast Guard Cutters have been challenged in a multi-mission environment to meet requirements including search and rescue, law enforcement, fisheries management, recreational boating safety, hurricane avoidance and response, and homeland security missions. The Commanding officers of U.S. Coast Guard Cutters are consummate process owners that require the most efficient and dynamic management model to best meet internal and external customers in an ever-changing operating environment.

Six Sigma; Dashboard; Coast Guard

Design of Multi-bit Sigma-Delta Modulators for Digital Wireless Communications

Li, Bingxin

January 2003

The ever advance of CMOS digital circuit process leads tothe trend of digitizing an analog signal and performing digitalsignal processing as early as possible in a signal processingsystem, which in turn leads to an increasing requirement onanalog- to-digital converter (ADC). A wireless transceiver is asuch kind of signal processing system. Conventionaltransceivers manipulate (filter, amplify and mix) the signalmostly in analog domain. Since analog filters are difficult todesign onchip, the system integration level is low. Moderntransceivers shift many of these tasks to digital domain, wherethe filtering and channel selection can be realized moreaccurately and more compactly. However the price for the highintegration level is the critical requirement on the ADC,because the simplified analog part sends not only the weaksignal but also the unwanted strong neighboring channel to theADC. In order to digitize the needed signal in the presence ofstrong disturbances, a high dynamic-range and high-speed ADC isneeded. Sigma Delta ADCs are promising candidates for A/D conversionin modern wireless transceivers. They are naturally suitablefor high-resolution narrow-band A/D conversions. With thedevelopment of processing and design techniques, sigma deltaADCs are expanding their applications to moderate-band area,such as wireless communication baseband processing. Currentlymobile communication systems are migrating from 2G to 3G. In 2Gsystems the baseband width is in the order of hundred kHz,while in 3G systems the baseband width is in the order of MHz.To face the challenge of designing a high resolution sigmadelta ADC with large bandwidth, a multi-bit internal quantizeris often used. In this thesis special design considerations onmulti-bit sigma delta modulators are discussed. The biggestdrawback of multi-bit sigma delta modulators isthe need of anextra circuit to attenuate or compensate the internal multi-bitDAC non-linearity. This thesis provides a comprehensiveanalysis of the solution which combines a multi-bit quantizerwith a 1-bit DAC in a sigma delta modulator. The theoreticalanalysis result is verified by measurement results. Anothertopic addressed in the thesis is how to reduce the multi-bitquantizer complexity. It is shown that by using a semiuniformquantizer, the quantizer can reduce its complexity by one-bityet still maintain the same modulator dynamic range. Theperformance of the semi-uniform quantizer is also verified bymeasurement results.

sigma delta modulator wirelss ADC

A 1-1-1-1 MASH Delta-Sigma ADC using Dynamic Comparator-based OTAs

Yamamoto, Kentaro

08 January 2013

Low intrinsic transistor gain in nanometer CMOS technologies imposes implementation difficulties of switched-capacitor (SC) circuits based on a conventional OTA used in delta-sigma ADCs. Zero-crossing-based circuits (ZCBCs) have been proposed as replacements for conventional OTAs in SC circuits, but the efficiency of existing ZCBC-based delta-sigma ADCs trails that of state-of-art conventional delta-sigma ADCs. The dynamic comparator-based OTA (DCBOTA) is a novel circuit block that performs an equivalent operation of a conventional OTA in a SC circuit by repeatedly detecting the input (Vg) sign and applying output current pulses to move Vg toward zero. The current pulse amplitude, set to the maximum at the beginning of a charge transfer phase, is decremented each time Vg crosses zero. Once Vg crosses zero at the minimum current pulse amplitude, the operation above ceases. The discrete-time nature of Vg comparison and current pulse injection in the DCBOTA allows use of a dynamic regenerative comparator, which is fast and scaling friendly, instead of the slow scaling-unfriendly open-loop zero-crossing detector used in ZCBCs. A small final Vg step size is required for high settling accuracy, but it can result in a long settling time. Analysis reveals that the DCBOTA settling time is minimized with a current pulse scaling factor of 3.59 for any final Vg step size. The comparator and switch noise affects the settling DCBOTA settling accuracy. The relationship between the minimum Vg step size, comparator noise, and switch noise for a given input-referred noise is shown. The DCBOTA consists of a dynamic regenerative comparator, control logic, and current pulse driver. The comparator evaluates the Vg sign when enabled by the control logic. The control logic enables and resets the comparator, and controls the current pulse amplitude. The current pulse driver applies either a positive or negative output current pulse when triggered by the comparator output. A 1-1-1-1 MASH delta-sigma ADC using DCBOTAs fabricated in a 65-nm CMOS technology achieved 70.4 dB of peak SNDR over a 2.5-MHz bandwidth dissipating 3.89 mW of power from a 1.2-V supply. Measurements show linear ADC power scaling over sampling frequencies provided by the dynamic operation of the DCBOTAs.

DCBOTA

Delta-Sigma ADC

0544

Implementation of a Low-Cost Analog-to-Digital Converter for Audio Applications Using an FPGA

Hellman, Johan

January 2013

The aim of this master’s thesis is to implement an ADC (Analog-to-Digital Converter) foraudio applications using external components together with an FPGA (Field-ProgrammableGate Array). The focus is on making the ADC low-cost and it is desirable to achieve 16-bitresolution at 48 KS/s. Since large FPGA’s have numerous I/O-pins, there are usually someunused pins and logic available in the FPGA that can be used for other purposes. This istaken advantage of, to make the ADC as low-cost as possible.This thesis presents two solutions: (1) a - (Sigma-Delta) converter with a first order passive loop-filter and (2) a - converter with a second order active loop-filter. The solutionshave been designed on a PCB (Printed Curcuit Board) with a Xilinx Spartan-6 FPGA. Bothsolutions take advantage of the LVDS (Low-Voltage-Differential-Signaling) input buffers inthe FPGA.(1) achieves a peak SNDR (Signal-to-noise-and-distortion-ratio) of 62.3 dB (ENOB (Effectivenumber of bits) 10.06 bits) and (2) achieves a peak SNDR of 80.3 dB (ENOB 13.04). (1) isvery low-cost ($0.06) but is not suitable for high-precision audio applications. (2) costs $0.53for mono audio and $0.71 for stereo audio and is comparable with the solution used today:an external ADC (PCM1807).

ADC

Sigma-Delta

FPGA

LVDS

Measurement of Delta-Sigma Converter

Liu, Xiyang

January 2011

With today’s technology, digital signal processing plays a major role. It is used widely in many applications. Many applications require high resolution in measured data to achieve a perfect digital processing technology. The key to achieve high resolution in digital processing systems is analog-to-digital converters. In the market, there are many types ADC for different systems. Delta-sigma converters has high resolution and expected speed because it’s special structure. The signal-to-noise-and-distortion (SINAD) and total harmonic distortion (THD) are two important parameters for delta-sigma converters. The paper will describe the theory of parameters and test method.

Delta-Sigma converter

SINAD

THD

Design of Multi-bit Sigma-Delta Modulators for Digital Wireless Communications

Li, Bingxin

January 2003

<p>The ever advance of CMOS digital circuit process leads tothe trend of digitizing an analog signal and performing digitalsignal processing as early as possible in a signal processingsystem, which in turn leads to an increasing requirement onanalog- to-digital converter (ADC). A wireless transceiver is asuch kind of signal processing system. Conventionaltransceivers manipulate (filter, amplify and mix) the signalmostly in analog domain. Since analog filters are difficult todesign onchip, the system integration level is low. Moderntransceivers shift many of these tasks to digital domain, wherethe filtering and channel selection can be realized moreaccurately and more compactly. However the price for the highintegration level is the critical requirement on the ADC,because the simplified analog part sends not only the weaksignal but also the unwanted strong neighboring channel to theADC. In order to digitize the needed signal in the presence ofstrong disturbances, a high dynamic-range and high-speed ADC isneeded.</p><p>Sigma Delta ADCs are promising candidates for A/D conversionin modern wireless transceivers. They are naturally suitablefor high-resolution narrow-band A/D conversions. With thedevelopment of processing and design techniques, sigma deltaADCs are expanding their applications to moderate-band area,such as wireless communication baseband processing. Currentlymobile communication systems are migrating from 2G to 3G. In 2Gsystems the baseband width is in the order of hundred kHz,while in 3G systems the baseband width is in the order of MHz.To face the challenge of designing a high resolution sigmadelta ADC with large bandwidth, a multi-bit internal quantizeris often used. In this thesis special design considerations onmulti-bit sigma delta modulators are discussed. The biggestdrawback of multi-bit sigma delta modulators isthe need of anextra circuit to attenuate or compensate the internal multi-bitDAC non-linearity. This thesis provides a comprehensiveanalysis of the solution which combines a multi-bit quantizerwith a 1-bit DAC in a sigma delta modulator. The theoreticalanalysis result is verified by measurement results. Anothertopic addressed in the thesis is how to reduce the multi-bitquantizer complexity. It is shown that by using a semiuniformquantizer, the quantizer can reduce its complexity by one-bityet still maintain the same modulator dynamic range. Theperformance of the semi-uniform quantizer is also verified bymeasurement results.</p>

sigma delta modulator wirelss ADC