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REALIZATION OF CASCADE OF RESONATORS WITH DISTRBUTED FEED-BACK SIGMA-DELTASaleem, Jawad, Malik, Abdul Mateen January 2009 (has links)
<p>The Sigma Delta Modulator (SDM) based analog to digital conversion is cost effective and have the advantages as higher reliability, increased functionality, and reduction in chip cost.</p><p>The thesis work includes the modeling of SDM with the signal flow graph in Matlab, optimization of the coefficients to improve the noise transfer function and signal transfer function. A procedure to find the maximum stable input range for the design. Scaling the inputs of the integrator so that the maximum output signal can be obtained according to the operational transconductance amplifier (OTA) output range. Further we derived error bound for the design. Then step by step realization of the SDM form the signal flow graph (SFG) to a fully differential switched-capacitor (SC) network is shown. The work also includes complete differential transistor level realization for 3-bit flash analog to digital converter (ADC), thermometric to binary encoder, a switch-capacitor digital to analog converter (DAC) circuit and an on-chip circuit realization of the non-overlapping clock generation circuitry.</p>
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Design of analog-to-digital converters with binary search algorithm and digital calibration techniquesWong, Si Seng January 2011 (has links)
University of Macau / Faculty of Science and Technology / Department of Electrical and Electronics Engineering
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Design of a Rom-Less Direct Digital Frequency Synthesizer in 65nm CMOS TechnologyEbrahimi Mehr, Golnaz January 2013 (has links)
A 4 bit, Rom-Less Direct Digital Frequency Synthesizer (DDFS) is designed in 65nm CMOS technology. Interleaving with Return-to-Zero (RTZ) technique is used to increase the output bandwidth and synthesized frequencies. The performance of the designed synthesizer is evaluated using Cadence Virtuoso design tool. With 3.2 GHz sampling frequency, the DDFS achieves the spurious-free dynamic range (SFDR) of 60 dB to 58 dB for synthesized frequencies between 200 MHz to 1.6 GHz. With 6.4 GHz sampling frequency, the synthesizer achieves the SFDR of 46 dB to 40 dB for synthesized frequencies between 400 MHz to 3.2 GHz. The power consumption is 80 mW for the designed mixed-signal blocks.
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Realization of Cascade of Resonators with Distributed Feed-Back Sigma-DeltaSaleem, Jawad, Malik, Abdul Mateen January 2009 (has links)
The Sigma Delta Modulator (SDM) based analog to digital conversion is cost effective and have the advantages as higher reliability, increased functionality, and reduction in chip cost. The thesis work includes the modeling of SDM with the signal flow graph in Matlab, optimization of the coefficients to improve the noise transfer function and signal transfer function. A procedure to find the maximum stable input range for the design. Scaling the inputs of the integrator so that the maximum output signal can be obtained according to the operational transconductance amplifier (OTA) output range. Further we derived error bound for the design. Then step by step realization of the SDM form the signal flow graph (SFG) to a fully differential switched-capacitor (SC) network is shown. The work also includes complete differential transistor level realization for 3-bit flash analog to digital converter (ADC), thermometric to binary encoder, a switch-capacitor digital to analog converter (DAC) circuit and an on-chip circuit realization of the non-overlapping clock generation circuitry.
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Large scale reconfigurable analog system design enabled through floating-gate transistorsGray, Jordan D. 03 June 2009 (has links)
This work is concerned with the implementation and implication of non-volatile charge storage on VLSI system design. To that end, the floating-gate pFET (fg-pFET) is considered in the context of large-scale arrays. The programming of the element in an efficient and predictable way is essential to the implementation of these systems, and is thus explored. The overhead of the control circuitry for the fg-pFET, a key scalability issue, is examined. A light-weight, trend-accurate model is absolutely necessary for VLSI system design and simulation, and is also provided. Finally, several reconfigurable and reprogrammable systems that were built are discussed.
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Discrete-time crossing-point estimation for switching power convertersSmecher, Graeme. January 2008 (has links)
In a number of electrical engineering problems, so-called "crossing points" -- the instants at which two continuous-time signals cross each other -- are of interest. Often, particularly in applications using a Digital Signal Processor (DSP), only periodic samples along with a partial statistical characterization of the signals are available. In this situation, we are faced with the following problem: Given limited information about these signals, how can we efficiently and accurately estimate their crossing points? / For example, an audio amplifier typically receives its input from a digital source decoded into regular samples (e.g. from MP3, DVD, or CD audio), or obtained from a continuous-time signal using an analog-to-digital converter (ADC). In a switching amplifier based on Pulse-Width Modulation (PWM) or Click Modulation (CM), a signal derived from the sampled audio is compared against a deterministic reference waveform; the crossing points of these signals control a switching power stage. Crossing-point estimates must be accurate in order to preserve audio quality. They must also be simple to calculate, in order to minimize processing requirements and delays. / We consider estimating the crossing points of a known function and a Gaussian random process, given uniformly-spaced, noisy samples of the random process for which the second-order statistics are assumed to be known. We derive the Maximum A-Posteriori (MAP) estimator, along with a Minimum Mean-Squared Error (MMSE) estimator which we show to be a computationally efficient approximation to the MAP estimator. / We also derive the Cramer-Rao bound (CRB) on estimator variance for the problem, which allows practical estimators to be evaluated against a best-case performance limit. We investigate several comparison estimators chosen from the literature. The structure of the MMSE estimator and comparison estimators is shown to be very similar, making the difference in computational expense between each technique largely dependent on the cost of evaluating various (generally non-linear) functions. / Simulations for both Pulse-Width and Click Modulation scenarios show the MMSE estimator performs very near to the Cramer-Rao bound and outperforms the alternative estimators selected from the literature.
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CMOS RF SOC Transmitter Front-End, Power Management and Digital Analog InterfaceLeung, Matthew Chung-Hin 19 May 2008 (has links)
With the growing trend of wireless electronics, frequency spectrum is crowded with different applications. High data transfer rate solutions that operate in license-exempt frequency spectrum range are sought. The most promising candidate is the 60 GHz multi-giga bit transfer rate millimeter wave circuit. In order to provide a cost-effective solution, circuits designed in CMOS are implemented in a single SOC.
In this work, a modeling technique created in Cadence shows an error of less than 3dB in magnitude and 5 degree in phase for a single transistor. Additionally, less than 3dB error of power performance for the PA is also verified. At the same time, layout strategies required for millimeter wave front-end circuits are investigated. All of these combined techniques help the design converge to one simulation platform for system level simulation.
Another aspect enabling the design as a single SOC lies in integration. In order to integrate digital and analog circuits together, necessary peripheral circuits must be designed. An on-chip voltage regulator, which steps down the analog power supply voltage and is compatible with digital circuits, has been designed and has demonstrated an efficiency of 65 percent with the specific area constraint. The overall output voltage ripple generated is about 2 percent.
With the necessary power supply voltage, gate voltage bias circuit designs have been illustrated. They provide feasible solutions in terms of area and power consumption. Temperature and power supply sensitivities are minimized in first two designs. Process variation is further compensated in the third design. The third design demonstrates a powerful solution that each aspect of variations is well within 10%.
As the DC conditions are achieved on-chip for both the digital and analog circuits, digital and analog circuits must be connected together with a DAC. A high speed DAC is designed with special layout techniques. It is verified that the DAC can operate at a speed higher than 3 Gbps from the pulse-shaping FIR filter measurement result.
With all of these integrated elements and modeling techniques, a high data transfer rate CMOS RF SOC operating at 60 GHz is possible.
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Design trade-off of low power continuous-time [Sigma Delta] modulators for A/D conversionsSong, Tongyu. January 1900 (has links)
Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references.
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Conversor digital quaternario para analogico / Quaternary digital to analog converterSilva, Jose Carlos da 28 February 2005 (has links)
Orientador: Alberto Martins Jorge / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-04T16:28:44Z (GMT). No. of bitstreams: 1
Silva_JoseCarlosda_D.pdf: 8074106 bytes, checksum: 2f71934ce780079124988d97ff4b0521 (MD5)
Previous issue date: 2005 / Resumo: Neste trabalho é apresentada a lógica múltiplo valor como opção para substituir ou ser usada como interface com a lógica binária. A lógica múltiplo valor difere da lógica binária clássica devido ao fato que os seus dígitos estão além de zeros e uns. Utilizando a lógica múltiplo valor consegue-se comunicação em entre blocos ou com o mundo externo a um chip com menor número de interconexões, o que acarretará a diminuição da área do circuito integrado e redução de custos. Pesquisadores e industria caminham para a pesquisa e desenvolvimento de circuitos múltiplos valores, que podem substituir ou ser utilizados como interface com os circuitos de dois valores (binários). Este trabalh o apresenta o desenvolvido do projeto de um conversor digital quaternário para analógico que tem quatro entradas e resolução equivalente a um conversor digital binário para analógico de oito entradas. Este conversor foi confeccionado totalmente em tecnologia CMOS 0.35µm, tendo como resultado um protótipo de um circuito integrado múltiplo valor que contém todas as células de um conversor digital binário para analógico. Este conversor apresenta consumo de potência abaixo de 1mW, alimentação simples de 5V e compactação (900µm x 235µm) / Abstract: In this work is presented the multiple value logic as option to substitute or to be used as interface with the binary logic. The multiple value logic differs of the classic binary logic to the fact that its digits are beyond zeros and ones. Using the multiple logic value obtains communication in between blocks or with the external world to one chip with lesser
number of interconnections, what it will cause the reduction of the area of the integrated circuit and reduction of costs. Researchers and industry walk for the research and development of multiple values circuits, that can substitute or be used as interface with the circuits of two values (binary). This work presents the developed one of the project of a
quaternary digital to analog converter that it has four inputs and resolution equivalent to a binary digital to analog converter of eight inputs. This converter was confectioned totally in technology CMOS 0.35µm, having as resulted an prototype of an integrated circuit multiple value that contains all the cells of a binary digital to analog converter. This converter presents consumption of power below of 1mW, simple voltage of 5V and compacting (900µm x 235µm) / Doutorado / Eletrônica, Microeletrônica e Optoeletrônica / Doutor em Engenharia Elétrica
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Discrete-time crossing-point estimation for switching power convertersSmecher, Graeme. January 2008 (has links)
No description available.
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