FQPSK ANALOG/DIGITAL IMPLEMENTATIONS FOR LOW TO ULTRA HIGH DATA RATES IN 1Gb/s RANGE SYSTEMS

Chen, Dijin, McCorduck, James A., Feher, Kamilo

10 1900

International Telemetering Conference Proceedings / October 20-23, 2003 / Riviera Hotel and Convention Center, Las Vegas, Nevada / For simpler implementations of ultra high bit rate systems, combined analog/digital techniques, described here in, provide implementations with the smallest number of component count utilizing minimal “real-estate” and smallest DC power. While digital implementations with tradition Read Only Memory (ROM) and Digital to Analog Converters (DAC’s) have been proven in several commercial, NASA -CCSDS recommended, and U.S. DoD-IRIG standardized Feher’s QPSK (FQPSK) [2,3] products, such implementations can be further simplified, and in particular for ultra high bit rate product applications. Several waveform generating techniques such as linear approximation, analog approximation and mixed analog and linear approximations are investigated using preliminary simulation results.

Waveform Generation

Modul s FPGA pro rychlé generování signálu a synchronní sběr dat / FPGA module for fast waveform generation and synchronous data acquisition

Eliáš, Josef

January 2016

Master's thesis deals with system for fast waveform generation and synchronous data acquistion. Part of this thesis are requirements of system, which will be gradually analysed. The result of analysis will be selection of suitable components for system and its design.

Stable Optical Frequency Comb Generation And Applications In Arbitrary Waveform Generation, Signal Processing And Optical Data M

Ozharar, Sarper

01 January 2008

This thesis focuses on the generation and applications of stable optical frequency combs. Optical frequency combs are defined as equally spaced optical frequencies with a fixed phase relation among themselves. The conventional source of optical frequency combs is the optical spectrum of the modelocked lasers. In this work, we investigated alternative methods for optical comb generation, such as dual sine wave phase modulation, which is more practical and cost effective compared to modelocked lasers stabilized to a reference. Incorporating these comblines, we have generated tunable RF tones using the serrodyne technique. The tuning range was ±1 MHz, limited by the electronic waveform generator, and the RF carrier frequency is limited by the bandwidth of the photodetector. Similarly, using parabolic phase modulation together with time division multiplexing, RF chirp extension has been realized. Another application of the optical frequency combs studied in this thesis is real time data mining in a bit stream. A novel optoelectronic logic gate has been developed for this application and used to detect an 8 bit long target pattern. Also another approach based on orthogonal Hadamard codes have been proposed and explained in detail. Also novel intracavity modulation schemes have been investigated and applied for various applications such as a) improving rational harmonic modelocking for repetition rate multiplication and pulse to pulse amplitude equalization, b) frequency skewed pulse generation for ranging and c) intracavity active phase modulation in amplitude modulated modelocked lasers for supermode noise spur suppression and integrated jitter reduction. The thesis concludes with comments on the future work and next steps to improve some of the results presented in this work.

Optical Frequency Combs

Phase Modulation

Arbitrary Waveform Generation

Data Mining

Electromagnetics and Photonics

Optics

Analytical and Experimental Vibration Analysis of Variable Update Rate Waveform Generation

Mark, Joshua F.

14 December 2011

No description available.

Aerospace Engineering

Engineering

Mechanical Engineering

traveling wave excitation

waveform generation

modal analysis

variable update rate

Experimental Optical Pulse Picker for Lawrence Livermore National Lab

Wargo, Alexander Thomas

01 March 2019

Proprietary.

Optical Pulse Picking

Arbitrary Waveform Generation

Mode-Locked Laser

Fiber Optics

Photonics

High-Frequency Electronics

Electrical and Electronics

Electromagnetics and Photonics

Injection-Locked Vertical Cavity Surface Emitting Lasers (VCSELs) for Optical Arbitrary Waveform Generation

Bhooplapur, Sharad

01 January 2014

Complex optical pulse shapes are typically generated from ultrashort laser pulses by manipulating the optical spectrum of the input pulses. This generates complex but periodic time-domain waveforms. Optical Arbitrary Waveform Generation (OAWG) builds on the techniques of ultrashort pulse-shaping, with the goal of making non-periodic, truly arbitrary optical waveforms. Some applications of OAWG are coherently controlling chemical reactions on a femtosecond time scale, improving the performance of LADAR systems, high-capacity optical telecommunications and ultra wideband signals processing. In this work, an array of Vertical Cavity Surface Emitting Lasers (VCSELs) are used as modulators, by injection-locking each VCSEL to an individual combline from an optical frequency comb source. Injection-locking ensures that the VCSELs' emission is phase coherent with the input combline, and modulating its current modulates mainly the output optical phase. The multi-GHz modulation bandwidth of VCSELs updates the output optical pulse shape on a pulse-to-pulse time scale, which is an important step towards true OAWG. In comparison, it is about a million times faster than the liquid-crystal modulator arrays typically used for pulse shaping! Novel components and subsystems of Optical Arbitrary Waveform Generation (OAWG) are developed and demonstrated in this work. They include: 1. Modulators An array of VCSELs is packaged and characterized for use as a modulator for rapid?update pulse?shaping at GHz rates. The amplitude and phase modulation characteristics of an injection-locked VCSEL are simultaneously measured at GHz modulation rates. 2. Optical Frequency Comb Sources An actively mode-locked semiconductor laser was assembled, with a 12.5 GHz repetition rate, ~ 200 individually resolvable comblines directly out of the laser, and high frequency stability. In addition, optical frequency comb sources are generated by modulation of a single frequency laser. 3. High-resolution optical spectral demultiplexers The demultiplexers are implemented using bulk optics, and are used to spatially resolve individual optical comblines onto the modulator array. 4. Optical waveform measurement techniques Several techniques are used to measure generated waveforms, especially for spectral phase measurements, including multi-heterodyne phase retrieval. In addition, an architecture for discriminating between ultrashort encoded optical pulses with record high sensitivity is demonstrated.

Semiconductor laser

vcsel

pulse shaping

ultrashort pulse

modelocked lasers

optical arbitrary waveform generation

optical waveform measurement

Electromagnetics and Photonics

Optics

Filtrage programmable et mémoire quantique dans Er 3+ YSO / programmable filtering and quantum memory in Er : YSO

Damon, Vianney

13 February 2012

Les ions de terres rares en matrice cristalline, refroidis à très basse température, offrent des propriétés remarquables pour le traitement analogique du signal sur porteuse optique. L’élargissement inhomogène du spectre d’absorption peut en effet atteindre plusieurs centaines de gigahertz alors que la largeur homogène des raies d’absorption des ions individuels ne dépasse pas quelques kilohertz. Par pompage optique il est alors possible de modifier à volonté le profil du spectre d’absorption. On dispose ainsi d’un filtre programmable présentant à la fois une très grande bande passante, donnée par la largeur inhomogène, et une excellente résolution, fixée par la largeur homogène. Une raie d’absorption étroite correspond à un état de superposition quantique de longue durée de vie. C’est sous cet angle, celui des transitoires cohérents, et spécifiquement celui des échos de photons que nous abordons les propriétés du filtre programmable. Dans la première partie de la thèse, le filtre est programmé comme un élément dispersif. Il permet d’atteindre des taux de dispersion inaccessibles aux dispositifs optiques conventionnels, tels que les fibres optiques. Nous l’utilisons comme un composant de lentille temporelle, en vue de produire des signaux de forme arbitraire. Par rapport à des dispositifs d’optique conventionnels, on gagne plusieurs ordres de grandeurs en termes de produit temps x bande passante. Après avoir exploité l’écho de photon dans un contexte de filtrage linéaire, nous tirons parti de ses propriétés de très forte non-linéarité dans la seconde partie de la thèse. Cette fois nous cherchons à capturer un signal lumineux de très faible intensité, à le convertir en état de superposition atomique, puis à le restituer dans son état lumineux initial. Cela suppose en particulier d’empêcher les effets d’émission spontanée ou stimulé qui nuisent à la fidélité de la restitution. Pour ce faire, nous proposons un nouveau protocole que nous avons appelé « Revival Of Silenced Echo » (ROSE) / Rare earth ions doped crystals, when cooled at very low temperature, exhibit outstanding properties for optically-carried analogical signal processing. The absorption spectral broadening can reach several hundred of Gigahertz, while the homogeneous width of each individual ion does no exceed a few kilohertz. With the help of optical pumping, one may modify the absorption profile at will. The resulting programmable filter simultaneously offers a very large bandwidth, given by the inhomogeneous width, and a very good resolution, fixed by the homogeneous width. Narrow absorption line is related to long lifetime quantum superposition. We contemplate the programmable filter properties, keeping in mind this coherent transient picture, specifically related to photon echoes. In the first part of the dissertation, the programmable filter is programmed as a dispersive element. This gives access to dispersion rate values out of reach of conventional optical devices, such as optical fibers. We use the filter as a temporal lens component, with an eye to generating arbitrary waveforms. Thereby, we gain several orders of magnitude against conventional optical devices in terms of time x bandwidth product. After taking advantage of photon echoes in the linear filtering context, we capitalize on their strongly non-linear properties in the second part of the dissertation. This time we want to capture a very weak optical signal, to convert it into an atomic superposition state, and to restore it in its initial state of light. Faithful retrieval of the incoming signal relies on the elimination of spontaneous and stimulated emission. To this end, we propose a new protocol we have named « Revival Of Silenced Echo » (ROSE).

Ions de terre rare

Mémoire quantique

Lentille temporelle

Production de formes arbitraires

Échos de photon

Rare earth ions

Quantum memory

Time lens

Arbitrary waveform generation

Photon echo

Design and Implementation of the Precision Personnel Locator Digital Transmitter System

Daempfling, Hauke C

20 December 2006

"The Precision Personnel Locator project is an ongoing research project funded by the Department of Justice, the goal of which is to provide sub-meter accuracy tracking and location of first responders inside of buildings with no pre-existing infrastructure, especially in emergency situations. The PPL system consists of wearable, battery-powered Locator devices that transmit a multi-carrier “ranging signal” waveform and Reference Units that receive this ranging signal and relay the information to a Base Station for location estimation processing and display. This thesis describes the design and implementation of a subset of the Locator devices’ functionality, including: the digital generation of the ranging signal waveform; the coordination of the transmissions of many Locator devices using time-sharing methods to prevent overlap of the signals; and finally, the gathering of environmental data such as temperature and movement of the wearer and the relaying of this data back to the Base Station. To perform these tasks, two subsystems were designed and implemented as printed circuit boards. The first of these is the Data Channel, which is a low power, general-purpose communications platform that is capable of controlling the transmissions of the Locator devices with support for up to 100 Locators transmitting every second, and it can control the power of the Locator devices by switching portions of the system off when they are not in use. It also includes sensors to measure the ambient temperature, movement of the device, and a “distress button” that a first responder can press to trigger a distress signal to be transmitted to the outside of the building. The second subsystem is the Digital Waveform Generator, which consists of a Field-Programmable Gate Array (FPGA) and Digital-to-Analog Converter (DAC) that are capable of generating waveforms of up to 200 MHz bandwidth. The new Locator hardware can operate on battery power for many days. The two subsystems were successfully tested and will serve as an important step towards the goal of developing a deployable location and tracking system."

precision personnel locator

digital systems

embedded systems

waveform generation

data communication

Radio

Transmitter-receivers

Design

Wireless communication systems

Automatic locator systems

Desenvolvimento de um tomógrafo de ressonância magnética: integração e otimização. / Development of a magnetic resonance tomograph: integration and improvement.

Martins, Mateus Jose

07 February 1995

O presente trabalho descreve o desenvolvimento de um sistema de tomografia por Ressonância Magnética, para uso em diagnósticos médicos. Ele foi baseado em subsistemas disponíveis comercialmente, tais como os utilizados em equipamentos de imagens de RM comerciais. As principais contribuições deste projeto foram: o desenvolvimento de circuitos eletrônicos complementares e \"software\", necessários para tomar o \"hardware\" adquirido em um Tomógrafo de Ressonância Magnética para diagnósticos médicos. Isso não inclui somente o projeto de complexos programas necessários para gerar os pulsos de RF, formas de onda dos gradientes, sistema de aquisição de dados e as seqüências de pulsos necessárias para o completo sincronismo, mas também o desenvolvimento de uma interface amigável para realizar: a entrada de informações do paciente; a seleção das técnicas de imagem e o \"software\" interativo para visualização e seleção de planos. Um novo algoritmo de compressão de dados, para reduzir o armazenamento necessário de dados de imagens de RM, sem perda de informação foi também apresentado e implementado. Uma comparação com outras implementações de compressão de uso geral foi apresentada para mostrar uma performance superior na taxa de compressão e tempo de execução. / The present work describes the development of a Magnetic Resonance Tomography system to be used for medical diagnostics. It is based on commercially available subsystems such as used as in commercial MRI equipments. The main contributions to the project were: the development of fill up electronics and software needed to turn the acquired hardware into a MR Tomography for medical diagnostics. This includes not only the design of complex software needed to generate the used RF pulses, gradient waveforms, data acquisition system and the desired pulse sequences to synchronize all, but also the development of a user friendly interface to do: the entrance of patient\'s information; the selection of MR imaging techniques and interactive software for image viewing and planes selection. A new data compression algorithm to reduce the storage requirement of raw MR image data without information losses is also presented and implemented. A comparison with others general purpose compression implementations is presented to show the superior performance in the compression rate and execution time.

Compresssão de dados

Data compression

DDS

DDS

Espectrômetro

Geração e modulação RF

Gerador de formas de onda

Gradient waveform generation

Gradientes

Magnetic resonance

Ressonância magnética

RF Modulation

spectrometer

Tomógrafo

tomograph

Desenvolvimento de um tomógrafo de ressonância magnética: integração e otimização. / Development of a magnetic resonance tomograph: integration and improvement.

Mateus Jose Martins

07 February 1995

O presente trabalho descreve o desenvolvimento de um sistema de tomografia por Ressonância Magnética, para uso em diagnósticos médicos. Ele foi baseado em subsistemas disponíveis comercialmente, tais como os utilizados em equipamentos de imagens de RM comerciais. As principais contribuições deste projeto foram: o desenvolvimento de circuitos eletrônicos complementares e \"software\", necessários para tomar o \"hardware\" adquirido em um Tomógrafo de Ressonância Magnética para diagnósticos médicos. Isso não inclui somente o projeto de complexos programas necessários para gerar os pulsos de RF, formas de onda dos gradientes, sistema de aquisição de dados e as seqüências de pulsos necessárias para o completo sincronismo, mas também o desenvolvimento de uma interface amigável para realizar: a entrada de informações do paciente; a seleção das técnicas de imagem e o \"software\" interativo para visualização e seleção de planos. Um novo algoritmo de compressão de dados, para reduzir o armazenamento necessário de dados de imagens de RM, sem perda de informação foi também apresentado e implementado. Uma comparação com outras implementações de compressão de uso geral foi apresentada para mostrar uma performance superior na taxa de compressão e tempo de execução. / The present work describes the development of a Magnetic Resonance Tomography system to be used for medical diagnostics. It is based on commercially available subsystems such as used as in commercial MRI equipments. The main contributions to the project were: the development of fill up electronics and software needed to turn the acquired hardware into a MR Tomography for medical diagnostics. This includes not only the design of complex software needed to generate the used RF pulses, gradient waveforms, data acquisition system and the desired pulse sequences to synchronize all, but also the development of a user friendly interface to do: the entrance of patient\'s information; the selection of MR imaging techniques and interactive software for image viewing and planes selection. A new data compression algorithm to reduce the storage requirement of raw MR image data without information losses is also presented and implemented. A comparison with others general purpose compression implementations is presented to show the superior performance in the compression rate and execution time.

Compresssão de dados

DDS

Espectrômetro

Geração e modulação RF

Gerador de formas de onda

Gradientes

Ressonância magnética

Tomógrafo

Data compression

DDS

Gradient waveform generation

Magnetic resonance

RF Modulation

spectrometer

tomograph