Techniques for testing a 15-bit data acquisition system

Doerfler, Douglas Wayne.

January 1985

Call number: LD2668 .T4 1985 D63 / Master of Science

Analog-to-digital converters--Testing.

Digital-to-analog converters--Testing.

Masters theses

Effects of downset and die coat on stress sensitivity in a 16-pin molded plastic DIP

Paugh, Michael Ernest, 1954-

January 1989

Stress sensitivity of a 16 - bit D/A converter in a molded plastic DIP has been studied. Device performance was shown to change as a function of package stress. The effects of die position in the package and the presence or absence of die coat on package stress and device performance were determined. Finite element methods were employed for system analysis. Device stress sensitivity was attributed to diffused bit transistors and the mechanism assigned to nonuniformity of stress on the device bit transistors. Die coat (silicone gel) was shown to reduce normal and shear stresses and have little or no effect on X-axial stresses. Lowering the die in the package was shown to increase the X-axial stress uniformity from the die center to edge for die-coated parts and alter the value of shear stresses near the die edge for parts without die coat.

Electronic packaging -- Research.

Strains and stresses -- Measurement.

Digital-to-analog converters.

Linearity and monotonicity of a 10-bit, 125 MHz, segmented current steering digital to analog converter

Bittle, Charles C.

05 1900

The purpose of this research is to determine the linearity and monotonicity of the THS5651IDW digital to analog converter (DAC), a prototype of the future Texas Instruments TLV5651, 10-bit, 125 MHz communication DAC. Testing was conducted at the Texas Instruments facility on Forest Lane, Dallas, Texas. Texas Instruments provided test equipment, software and laboratory space to obtain test data. Analysis of the data found the DAC to be monotonic since the magnitude of the differential nonlinearity (DNL) was less than ± 1 least significant bit (LSB) and the integral nonlinearity (INL) was less than ± 0.5 LSB. The study also showed that the DAC has primarily negative DNL although the DNL is well within the desired specification.

Digital communications.

Digital-to-analog converters.

Cellular telephone systems.

digital communications

cellular phone technology

High speed floating analog to digital converter and interpolating digital to analog converter. / CUHK electronic theses & dissertations collection / Digital dissertation consortium

January 2001

Wang Hongwei. / "February 2001." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2001. / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.

All-MOSFET M-2M digital-to-analog converter for operation with very low supply voltage / Projeto de um conversor D/A M2M para operação em baixa tensão de alimentação

Mello, Israel Sperotto de

January 2015

Desde os anos 80 a evolução dos processos de fabricação de circuitos integrados MOS tem buscado a redução da tensão de alimentação, como forma de se reduzir o consumo de energia dos circuitos. Partiu-se dos antigos 5 V, padrão estabelecido pela lógica TTL nos anos 70, até os circuitos modernos que operam com alimentação pouco abaixo de 1 V. Entretanto, desde os primeiros anos da década de 2000, a tensão de alimentação está estabilizada neste patamar, devido a limitações tecnológicas que tem se mostrado difíceis de serem transpostas. Tal desafio tem sido estudado por grupos de pesquisa ao redor do mundo, e diversas estratégias tem sido propostas para se chegar a circuitos analógicos e digitais que operem sob tensão de alimentação bem inferior a 1 V. De fato estes grupos têm focado seus estudos em circuitos que operam com tensão de alimentação inferior a 0,5 V, alguns chegando à casa de 200 ou 100 mV, ou até menor. Dentre as diversas classes de circuitos, os conversores de dados dos tipos digital-analógico (DAC) e analógicodigital (ADC) são circuitos fundamentais ao processo de integração entre os módulos que processam sinais analogicamente e os que processam sinais digitalmente, sendo assim essenciais à implementação dos complexos SoCs (System-on-Chips) da atualidade. Este trabalho apresenta um estudo sobre o desempenho da configuração MOSFET em rede M-2M (similar à rede R-2R que emprega resistores), utilizada como circuito conversor digital-analógico, quando dimensionada para operar sob tensão de alimentação muito baixa, da ordem de 200 mV ou inferior. Tal estudo se baseia no emprego de um modelo para os MOSFETs que é contínuo desde a condição de inversão fraca (subthreshold) até a inversão forte, e inclui o uso de um modelo de descasamento entre MOSFETs que é válido para qualquer condição de operação. Com base neste estudo foi desenvolvida uma metodologia de projeto, capaz de estabelecer as relações de compromisso entre “tensão de alimentação”, “resolução efetiva” e “área ocupada em silício”, fundamentais para se atingir um circuito otimizado. Resultados de simulação elétrica são apresentados e confrontados com os resultados analíticos, visando a comprovação da metodologia. O circuito já foi enviado para fabricação, e deve começar a ser testado em breve.

Microeletrônica

Circuitos digitais

CMOS analog design

Low voltage design

Digital to analog converter

Mismatch

Design techniques for low voltage wideband delta-sigma modulator. / CUHK electronic theses & dissertations collection / Digital dissertation consortium

January 2010

Finally, another new 0.5V fully differential wideband amplifier, which can be used in the wideband modulator, has been proposed. The gate-input two-stage amplifier employs a DC common-mode feedback circuit that uses a Miller-amplified capacitor for its frequency compensation. With the proposed technique, the power consumption of the low-voltage amplifier is drastically reduced. / Furthermore, a new dynamic CM level shifting technique for low-voltage CT delta-sigma modulators that employ a return-to-open feedback DAC is reported in the thesis. The technique maintains a stable CM level at the amplifier's inputs for this type of modulators. Simulation results show that it improves the modulator's SNDR by 11%. / In this thesis, we present research works on developing a low-voltage delta-sigma modulator with a wide signal bandwidth. Specifically, a 0.5V complex low-pass continuous-time (CT) third-order delta-sigma modulator that has a single-sided signal bandwidth of 1MHz, targeting for application in Bluetooth receivers, is presented without using any internal voltage boosting techniques which are potentially harmful to the reliability of the device. The wide bandwidth of the modulator at this low supply voltage is enabled by a special common-mode (CM) level arrangement in the system level and by new low-voltage amplifies. Realized in a 0.13mum CMOS process the proposed modulator achieves a 61.9-dB peak signal-to-noise-and-distortion ratio at the nominal supply of 0.5V with 3.4mW consumption, and occupies an active area of 0.9mm2. The modulator achieves the best figure-of-merit among its class. / The development of low-voltage design techniques for analog circuits has recently received a lot of attention due to the continuous shrinking of the supply voltage in modern CMOS technologies, which is projected to reduce to 0.5V for low power applications within ten years in the International Technology Roadmap for Semiconductor. This thesis focuses on developing circuit techniques for low-voltage delta-sigma modulator, a functional block that is widely used in mixed-signal integrated circuits. Several delta-sigma modulators operating at supply voltages below 0.9V have been reported in the open literature. However, none of them supports a signal bandwidth wider than 100kHz with a reasonable performance. / He, Xiaoyong. / Adviser: Kong Pang Pun. / Source: Dissertation Abstracts International, Volume: 72-01, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 104-111). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.

Contribution à l'étude et à la réalisation d'un générateur de signaux radiofréquences analogiques pour la radio logicielle intégrale / Design of an analog waveform generator dedicated to software radio transmission.

Veyrac, Yoan

04 December 2015

Une utilisation intelligente de l’espace Hertzien sera nécessaire pour permettre aunombre croissant d’objets sans-fil connectés de communiquer dans le même espace de propagation.Ces travaux de thèse proposent une architecture d’émetteur radiofréquence flexible, faiblecoût et faible consommation, en rupture avec les techniques conventionnelles. Cet émetteur estfondé sur un encodage de la dérivée du signal à générer, ce qui permet de réduire le coût énergétiquede la conversion de l’information. Un convertisseur numérique analogique compatibleavec cette architecture est présenté et ses performances sont évaluées dans le cadre de la générationde signaux radiofréquence. Les résultats de mesures obtenus avec un prototype réalisé entechnologie CMOS 65 nm apporte la preuve du concept. / The increasing density of wireless devices and the associated communication flowssharing the same air interface will require a smart and agile use of frequency resources. Thisthesis proposes a flexible, low cost and low power disruptive transmitter architecture. It usesa differentiating coding scheme which leverages a mathematical and technological reduction ofthe energy cost of information conversion. The design of a DAC suited to this architecture isdeveloped and its performances are assessed toward RF signal generation. The measurementsof a demonstrator designed in 65 nm CMOS technology bring a proof of concept.

Convertisseur numérique-analogique

Générateur de signaux

Radio logicielle intégrale

Digital to analog converter

Waveform generator

Software radio

Digital-To-Analog Converter for FSK

Salim J, Athfal

January 2007

<p>This thesis is one part of a overall task of designing a module for frequency shift keying (FSK) to be used in an Ultra Wide Band (UWB) system. The FSK system has a Direct Digital Synthesizer (DDS) and Digital-to-Analog (DAC). The DACs differential current signals are directly fed to a RF (Radio Frequency) unit that generates the UWB RF signal.</p><p>The focus of this thesis is on DAC while the DDS is developed in VHDL as another thesis work. This thesis demonstrates a low-power, ultra wide band 10 bit DAC with an update frequency of 24 MSPS(Mega Samples Per Second). The DAC uses a L-fold linear interpolation architecture. It includes a 16-tap voltage controlled delay line and a 10 bit binary-weighted DAC with a time interleaved structure. The linear interpolation technique improves the attenuation of mirror components and also reduces the glitch. This helps to relax the analog filter requirements and sometimes an off chip capacitor is enough as low pass filter. The attenuation of image components is doubled in decibels(dB) compared with that of conventional DAC.</p><p>In this work various DAC architectures are studied. The current-steering DAC is chosen due to its high speed and high resolution. A binary weighted architecture is chosen to reduce the digital circuits. This helped in reducing the power consumption. The design and simulation is done with help of Cadence. The layout is done in Cadence Virtuoso and the DDS is integrated with the DAC. The chip is to be manufactured in 130 nm CMOS process.</p>

DAC

FSK

10-bit

layout

130 nm

Digital-To-Analog

CMOS

Common centroid

Electronics

Elektronik

Low-voltage data converters /

Meng, Qingdong.

January 1900

Thesis (Ph. D.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 77-81). Also available on the World Wide Web.

Modeling and Implementation of Current-Steering Digital-to-Analog Converters

Andersson, Ola

January 2005

Data converters, i.e., analog-to-digital converters (ADCs) and digital-to-analog converters (DACs), are interface circuits between the analog and digital domains. They are used in, e.g., digital audio applications, data communication applications, and other types of applications where conversion between analog and digital signal representation is required. This work covers different aspects related to modeling, error correction, and implementation of DACs for communication applications where the requirements on the circuits in terms of speed and linearity are hard. The DAC architecture considered in this work is the current-steering DAC, which is the most commonly used architecture for high-speed applications. Transistor-level simulation of complex circuits using accurate transistor models require long simulation times. A transistor-level model of a DAC used in a system simulation is likely to be a severe bottleneck limiting the overall system simulation speed. Moreover, investigations of stochastic parameter variations require multiple simulation runs with different parameter values making transistor-level models unsuitable. Therefore, there is a need for behavioral-level models with reasonably short simulation times. Behavioral-level models can also be used to find the requirements on different building blocks on high abstraction levels, enabling the use of efficient topdown design methodologies. Models of different nonideal properties in current-steering DACs are used and developed in this work. Static errors typically dominates the low-frequency behavior of the DAC. One of the limiting factors for the static linearity of a current-steering DAC is mismatch between current sources. A well-known model of this problem is used extensively in this work for evaluation of different ideas and techniques for linearity enhancement. The highfrequency behavior of the DAC is typically dominated by dynamic errors. Models oftwo types of dynamic errors are developed in this work. These are the dynamic errors caused by parasitic capacitance in wires and transistors and glitches caused by asymmetry in the settling behavior of a current source. The encoding used for the digital control word in a current steering DAC has a large influence on the circuit performance, e.g., in terms static linearity and glitches. In this work, two DAC architectures are developed. These are denoted the decomposed and partially decomposed architectures and utilize encoding strategies aiming at a high circuit performance by avoiding unnecessary switching of current sources. The developed architectures are compared with the well-known binary-weighted and segmented architectures using behavioral-level simulations. It can be hard to meet a DAC design specification using a straightforward implementation. Techniques for compensation of errors that can be applied to improve the DAC linearity are studied. The well-known dynamic element matching (DEM) techniques are used for transforming spurious tones caused by matching errors into white or shaped noise. An overview of these techniques are given in this work and a DEM technique for the decomposed DAC architecture is developed. In DS modulation, feedback of the quantization error is utilized to spectrally shape the quantization noise to reduce its power within the signal band. A technique based on this principle is developed for spectral shaping of DAC nonlinearity errors utilizing a DAC model in a feedback loop. Two examples of utilization of the technique are given. Four different current-steering DACs implemented in CMOS technology are developed to enable comparison between behavioral-level simulations and measurements on actual implementations and to provide platforms for evaluation of different techniques for linearity improvement. For example, a 14-bit DEM DAC is implemented and measurement results are compared with simulation results. A good agreement between measured and simulated results is obtained. Moreover, a configurable 12-bit DAC capable of operating with different degrees of segmentation and decomposition is implemented to evaluate the proposed decomposed architecture. Measurement results agree with results from behavioral-level simulations and indicate that the decomposed architecture is a viable alternative to the commonly used segmented architecture.

Data converter

analog-to-digital converters (ADCs)

digital-to-analog converters (DACs)

transistor

Electrical engineering

Elektroteknik