Global ETD Search

31	An Integrated High Efficiency DC-DC Converter in 65 nm CMOS Manh, Vir Varinder January 2010 (has links) This thesis work describes the implementation perspective of an integrated high efficiency DC-DC converter implemented in 65 nm CMOS. The implemented system employs the Buck converter topology to down-convert the input battery voltages. This converter offers its use as a power management unit in portable battery operated devices. This thesis work includes the description of a basic Buck converter along with the various key equations involved which describe the Buck operation as well as are used to deduce the requirements for the various internal building blocks of the system. A detailed description of the operation as well as the design of each of the building blocks is included. The implemented system can convert the input battery voltage in the range of 2.3 V to 3.6 V into an output supply voltage of 1.6 V. The system uses dual-mode feedback control to maintain the output voltage at 1.6 V. For the low load currents the PFM feedback control is used and for the higher load currents the PWM feedback control is used. This converter can supply load currents from 0 to 300 mA with efficiency above 85%. The static line regulation of the system is < 0.1% and the load regulation of the system is < 0.3%. A digital soft-start circuit is implemented in this system. The system also includes the capability to trim the output voltage in ~14 mV steps depending on the 4-bit input digital code. DC-DC Converter Voltage Regulator Buck PWM PFM High Efficiency Switching Amplifier Comparator Electrical engineering Elektroteknik
32	1MHz Bandwidth Switched-Current Sigma Delta Modulator Chen, Chih-hung 01 September 2010 (has links) The thesis proposes an integrator with an OPAMP in the feedback loop to fulfill 1MHz bandwidth SI Sigma Delta modulator. The OPAMP is used to pull down the input impedance and get high speed and high resolution. Oversampling and noise shaping are the two keys of Sigma Delta modulator. In structure, multistage is helpful for depressing noises and we use three stages to fulfill this 4-order proposed Sigma Delta modulator. The proposed Sigma Delta modulator uses TSMC 0.18£gm CMOS process and it is a 4-order and three stages SI Sigma Delta modulator. The sampling rate is 32MHz, bandwidth is 1MHz, and oversampling ratio is 16. delta-sigma modulator sigma-delta modulator switched-current circuit integrator sample and hole current comparator
33	A 1.2V 10bits 100-MS/s Pipelined Analog-to-Digital Converter in 90 nm CMOS Technology Wu, Chun-Tung 07 September 2010 (has links) The trend toward higher-level circuit integration is the result of demand for lower cost and smaller feature size. The goal of this trend is to have a single-chip solution, in which analog and digital circuits are placed on the same die with advanced CMOS technology. The complete integration of a system may include a digital processor, memory, ADC, DAC, signal conditioning amplifiers, frequency translation, filtering, reference voltage/current generator, etc. Although advanced fabrication technology benefits digital circuits, it poses great challenges for analog circuits. For instance, the scaling of CMOS devices degrades important analog performance such as output resistance, lowering amplifier gain. Simply lowering the power supply voltage in analog circuits does not necessarily result in lower power dissipation. The many design constraints common to the design of analog circuits makes it difficult to curb their power consumption. This is especially true for already complicated analog systems like ADCs; reducing their appetite for power requires careful analysis of system requirements and special strategies. This thesis describes a 10bits 100-MS/s low-voltage pipelined analog-to-digital converter (ADC), which consists of 8-stage-pipelined low resolution ADCs and a 2-bit flash ADC. Several critical technologies are adopted to guarantee the resolution and high sampling and converting rate such as 1.5bits per stage conversion, digital correction logic, folded-cascode gain-boosted amplifiers and so on. The ADC is designed in a 90nm CMOS technology with a 1.2V supply voltage. Pipeline ADC Analog-to-Digital Converter Low Power Switched-Capacitor Circuit Amplifier Comparator
34	On the design and evaluation of a programmable frequency generator ASIC for acoustic-wave sensor application Chen, Yen-yu 22 August 2011 (has links) In recent years, due to advances in semiconductor technology and mature integrated circuit design, complex signal processing equipment is beginning to be replaced by the integrated circuit. This paper presents an integrated circuit programmable frequency generator for open-loop resonator application and its evaluation. It can eventually replace the conventional discrete component system and be used to find the resonance frequency shift for the readout of micro-balances or similar devices. The oscillator provides an analog tuning input to set the coarse center frequency and bit resolution, and uses a digital input to control the frequency sweep. Calculating the resonance frequency difference between the active balance and a passive reference can mitigate some environmental effects on the resonator (e.g. temperature). The generator circuit is designed using Synopsys¡¦ HSPICE and Cadence's Spectre to perform circuit simulation. The circuit is implemented by Taiwan Semiconductor Manufacturing Company in 0.35 £gm 2-poly 4-metal CMOS process technology. The potential detection precision of a micro-balance using the forward generator is assessed by connecting test chips to an evaluation PCB with commercial piezo crystals providing a known resonance frequency for testing. National Instruments¡¦ LABVIEW is used to record the data output, and MATLAB to analyze the results. A minimum detection accuracy of 1 kHz is demonstrated with this setup. piezoelectric crystal programmable frequency generator resonance frequency amplitude detector latch comparator
35	High Sensitivity CMOS Voltage-to-Frequency Converter and High-Speed Current-Mode Sense Amplifier for SRAMs Li, Chih-Chen 23 June 2003 (has links) The first topic of this thesis is to propose a novel voltage-to-frequency converter (VFC) to provide high sensitivity. The VFC circuit is composed of one current mirror, one current multiplier, and voltage window comparators. The proposed VFC tracks the variations of the stored charge of a built-in capacitor. The voltage window comparator monitors the voltage of the capacitor to determine whether the output is pulled high or pulled down. The worth-case linear range of the output frequency of the proposed VFC is 0 to 55 MHz provided that the input voltage is 0 to 0.9 V. The error is less than 9% while the power dissipation is 0.218 mW. The second topic is to carry out a novel CMOS current-mode high- speed sense amplifier (SA). The proposed SA is composed by cascading a current-mode sense amplifier and a voltage-mode sense amplifier. The small input impedance of the current-mode amplifier alleviates the loading effect on the bitlines of SRAM cells such that the sensing speed is enhanced. The voltage-mode amplifier is responsible for boosting the logic levels to full swing. The worst access time of the proposed design is found to be less than 1.26 ns with a 1 pF load on outputs. The power dissipation is merely 0.835 mW at 793 MHz. Voltage-to-Frequency Converter Sense Amplifier Voltage Window comparator Current-Mode
36	Design of a Reversible ALU Based on Novel Reversible Logic Structures Morrison, Matthew Arthur 01 January 2012 (has links) Programmable reversible logic is emerging as a prospective logic design style for implementation in modern nanotechnology and quantum computing with minimal impact on circuit heat generation. Recent advances in reversible logic using and quantum computer algorithms allow for improved computer architecture and arithmetic logic unit designs. In this paper, a 22 Swap gate which is a reduced implementation in terms of quantum cost and delay to the previous Swap gate is presented. Next, a novel 33 programmable UPG gate capable of calculating the fundamental logic calculations is presented and verified, and its advantages over the Toffoli and Peres gates are discussed. The UPG is then implemented in a reduced design for calculating n-bit AND, n-bit OR and n-bit ZERO calculations. Then, two 33 RMUX gates capable of multiplexing two input values with reduced quantum cost and delay compared to the previously existing Fredkin gate is presented and verified. Next, 44 reversible gate is presented and verified which is capable of producing the calculations necessary for two-bit comparisons. The UPG and RC are implemented in the design of novel sequential and tree-based comparators. Then, two novel 44 reversible logic gates (MRG and PAOG) are proposed with minimal delay, and may be configured to produce a variety of logical calculations on fixed output lines based on programmable select input lines. A 55 structure (MG) is proposed that extends the capabilities of both the MRG and PAOG. The comparator designs are verified and its advantages to previous designs are discussed. Then, reversible implementations of ripple-carry, carry-select and Kogge-Stone carry look-ahead adders are analyzed and compared. Next, implementations of the Kogge-Stone adder with sparsity-4, 8 and 16 were designed, verified and compared. The enhanced sparsity-4 Kogge-Stone adder with ripple-carry adders was selected as the best design, and its implemented in the design of a 32-bit arithmetic logic unit is demonstrated. The proposed ALU design is verified and its advantages over the only existing ALU design are quantitatively analyzed. Comparator Emerging Technologies Low Power Multiplexer Quantum Computing American Studies Arts and Humanities Computer Engineering
37	A nano-power wake-up circuit for RF energy harvesting wireless sensor networks / Lindsley, Christopher J. January 1900 (has links) Thesis (M.S.)--Oregon State University, 2009. / Printout. Includes bibliographical references (leaves 39-40). Also available on the World Wide Web.
38	ENERGY EFFICIENT CIRCUIT TECHNIQUES FOR SUCCESSIVE APPROXIMATION REGISTER ADC Kandala, Veera Raghavendra Sai Mallik 01 August 2012 (has links) Charge-scaling (CS) successive approximation register (SAR) ADC's are widely used in the design of low power electronics. Significant portions of CS-SAR ADC power are consumed by CS capacitor arrays and comparator circuits. This Dissertation presents circuit techniques to reduce the power consumption of both CS capacitor array and the latch comparator during ADC operations. The impacts of the proposed techniques on ADC accuracies are analyzed and circuit techniques are presented to address the accuracy concerns. The dissertation also presents techniques to cope with capacitor mismatches, which becomes more significant with the use of very small unit capacitors in the CS array. These techniques rely on a novel programmable CS capacitor array that allow optimally grouping the unit capacitors. Based on a 0.13um CMOS technology the proposed techniques are verified with extensive circuit simulation. Post layout simulations are done to evaluate the proposed techniques for energy efficient CS capacitor array. CIRCUIT TECHNIQUES HIGH SPEED LOW POWER LOW VOLTAGE RAIL-TO-RAIL COMPARATOR SAR ADC
39	Adaptace digitálního předzkreslovače pro linearizaci zesilovačů s použitím komparátoru / Adaptation of digital predistorter to linearize amplifiers using comparator Jagla, Lukáš January 2020 (has links) Diplomová práce pojednává o návrhu nového hardwaru využívající komparátor ve zpětné vazbě systému pro digitální předzkreslování signálu. Vybrané vlastnosti navrhované architektury jsou ověřeny pomocí simulací a následně jsou zvoleny komponenty vhodné pro vysokofrekvenční použití za účelem implementace. Na bázi předložené architektury je navržen akviziční modul včetně obvodové realizace a vytvoření plošného spoje. Zhotovený plošný spoj je osazen a připraven pro další testování. Dále je navržen příslušný firmware pro příjem a vysílání signálu a získávání naměřených dat. Obdržené výsledky jsou určeny pro zhodnocení vlastností hardwaru a budoucího využití architektury v systémech digitálních předzkreslovačů.
40	ASIC implemented MicroBlaze-based Coprocessor for Data Stream Management Systems LINKNATH SURYA BALASUBRAMANIAN (8781929) 04 May 2020 (has links) The drastic increase in Internet usage demands the need for processing data in real time with higher efficiency than ever before. Symbiote Coprocessor Unit (SCU), developed by Dr. Pranav Vaidya, is a hardware accelerator which has potential of providing data processing speedup of up to 150x compared with traditional data stream processors. However, SCU implementation is very complex, fixed, and uses an outdated host interface, which limits future improvement. Mr. Tareq S. Alqaisi, an MSECE graduate from IUPUI worked on curbing these limitations. In his architecture, he used a Xilinx MicroBlaze microcontroller to reduce the complexity of SCU along with few other modifications. The objective of this study is to make SCU suitable for mass production while reducing its power consumption and delay. To accomplish this, the execution unit of SCU has been implemented in application specific integrated circuit and modules such as ACG/OCG, sequential comparator, and D-word multiplier/divider are integrated into the design. Furthermore, techniques such as operand isolation, buffer insertion, cell swapping, and cell resizing are also integrated into the system. As a result, the new design attains 67.9435 µW<p></p> of dynamic power as compared to 74.0012 µW<p></p> before power optimization along with a small increase in static power, 39.47 ns of clock period as opposed to 52.26 ns before time optimization. Computer Engineering Symbiote Coprocessor Unit ACG/OCG Sequential Comparator D-word multiplier/divider FPGA

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