A High Temperature RF Front-End of a Transceiver for High Speed Downhole Communications

Salem, Jebreel Mohamed Muftah

11 October 2017

Electronics are normally designed to operate at temperatures less than 125 oC. For high temperature applications, the use of those normal electronics becomes challenging and sometimes impractical. Conventionally, many industries tried to push the maximum operating temperature of electronics by either using passive/active cooling systems or tolerating degraded performance. Recently, there has been a demand for more robust electronics that can operate at higher temperature without sacrificing the performance or the use of any weighty, power hungry, complex cooling systems. One of the major industries that need electronics operating at high temperature is the oil and gas industry. Electronics have been used within the field in many areas, such as well logging downhole telemetry systems, power networks, sensors, and actuators. In the past, the industry has managed to use the existing electronics at temperatures up to 150 oC. However, declining reserves of easily accessible natural resources have motivated the oil and gas industry to drill deeper. The main challenge at deep wells for downhole electronics is the high temperatures as the pressures are handled mechanically. The temperature in deep basins can exceed 210 oC. In addition, existing well logging telemetry systems achieve low data transmission rates of less than 2.0 Mbps at depth of 7.0 Km which do not meet the growing demand for higher data rates due to higher resolution sensors, faster logging speeds, and additional tools available for a single wireline cable. The main issues limiting the speed of the systems are the bandwidth of multi-conductor copper cable and the low speed communication system connecting the tools with the telemetry modem. The next generation of the well logging telemetry system replaces the multi-conductor wireline between the surface and the downhole with an optical fiber cable and uses a coaxial cable to connect tools with the optical node in downhole to meet the growing needs for higher data rates. However, the downhole communication system between the tools and the optical modulator remains the bottleneck for the system. The downhole system is required to provide full duplex and simultaneous communications between multiple downhole tools and the surface with high data rates and able to operate reliably at temperatures up to 230 oC. In this dissertation, a downhole communication system based on radio frequency (RF) transmission is investigated. The major contributions of our research lie in five areas. First, we proposed and designed a downhole communication system that employs RF systems to provide high speed communications between the downhole tools and the surface. The system supports up to six tools and utilizes frequency division multiple access to provide full duplex and simultaneous communications between downhole tools and the surface data acquisition system. The system achieves 20 Mbps per tool for uplink and 6 Mbps per tool for downlink with bit error rate (BER) less than 10-6. Second, a RF front-end of transceiver operating at ambient temperatures up to 230 oC is designed and prototyped using Gallium Nitride (GaN) high electron mobility transistor (HEMT) devices. Measurement results of the transceiver's front end are reported in this dissertation. To our knowledge, this is the first RF transceiver that operates at this high temperature. Third, current-voltage and S-parameters characterizations of the GaN HEMT at ambient temperatures of 250 oC are conducted. An analytic model that accurately predicts the behavior of the drain-source resistor (RDS) of the GaN transistor at temperature up to 250 oC is developed based on these characterizations. The model is verified by the analysis and the performance of the resistive mixer. Fourth, a passive upconversion mixer operating at temperatures of 250 oC is designed and prototyped. The designed mixer has conversion loss (CL) of 6.5 dB at 25 oC under local oscillator (LO) power of 2.5 dBm and less than 0.75 dB CL variation at 250 oC under the optimum biasing condition. Fifth, an active downconversion mixer operating at temperatures up to 250 oC is designed and prototyped. The proposed mixer adopts a common source topology for a reliable thermal connection to the transistor source plate. The designed active mixer has conversion gain (CG) of 12 dB at 25 oC under LO power of 2.5 dBm and less than 3.0 dB CG variation at 250 oC. Finally, a novel high temperature negative adaptive bias voltage circuit for a GaN based RF block is proposed. The proposed design comprises an oscillator, voltage doubler, and temperature dependent bias controller. The voltage offset and temperature coefficient of the generated bias voltage can be adjusted by the bias controller to match the optimum biasing voltage required by a RF building block. The bias controller is designed using a Silicon Carbide (SiC) bipolar junction transistor. / PHD

High Temperature Electronics

Harsh Environment Electronics

Downhole Communications

GaN-based Transceiver

GaN for High temperature Applications

Sapphire Based Fiber-Optic Sensing for Extreme High Temperatures

Yu, Guo

13 June 2011

Temperature sensing is one of the most common and needed sensing technique, especially in harsh environment like a coal gasifier or an airplane engine. Single crystal sapphire has been studied in the last two decades as a candidate for harsh environment sensing task, due to its excellent mechanical and optical properties under extreme high temperature (over 1000°C). In this research, a sapphire wafer based Fabry-Perot (FP) interferometer sensor has been proposed, whose functional temperature measurement can go beyond 1600°C. The size of the sensors can be limited to a 2cm-length tube, with 2mm outer diameter, which is suitable for a wide range of harsh environment applications. The sensors have shown linear sensing response during 20~1200°C temperature calibration, with high sensitivity and resolution, and strong robustness, which are ready for the field test in real-world harsh environment. / Master of Science

Sapphire fiber

sensing

high temperature

harsh environment

wafer sensor

EFPI

miniaturized

Fiber-Optics Based Pressure and Temperature Sensors for Harsh Environments

Twedt, Jason Christopher

24 May 2007

Monitoring accurate temperature and pressure profiles in harsh environments is currently in high demand in aerospace gas turbine engines and nuclear reactor simulators. Having the ability to measure both quantities continuously over a region, without thermal coupling, using a sensor with a small size (envelope) is also highly desirable. Currently available MEMS (microelectromechanical systems) provide effective small scale pressure and temperature measurement devices, however, they have only been shown to be effective up to 600C and lack the ability to perform distributed measurements unless combined with fiber-optic techniques. In general, fiber-optics provide many advantages over electrical based sensors and are the ideal choice for high temperature regimes and distributed sensing. In this thesis, preliminary designs and suggested future work are presented for a sensor built within an 3.175 mm radius envelope and capable of distributed pressure and temperature sensing up to temperatures reaching 800C. Finite element analysis via ANSYS, along with analytical verification models have been used for the design evolution. Diaphragm based designs, seem to provide easy fabrication methods and good sensitivity, however, for this design to be realized at high temperature operation, a robust bonding method must be chosen to avoid unwanted deformation due to misfit strains. / Master of Science

Sensor

Pressure

Temperature

Fiber optics

Finite element analysis

Bellows

Diaphragm Sensors

Harsh Environments

Elliptical diaphragm

Etude et développement d’une chaine de traitement analogique du signal dédiée à la détection de particules en environnement sévère / Development of an analog processing chain dedicated to particles detection in harsh environment

Ben Krit, Sabrine

17 December 2015

Le travail présenté dans ce mémoire est basé sur l’étude et le développement d’une chaine analogique de traitement du signal destinée à la détection de particules issues d’un réacteur nucléaire. Le détecteur de radiations relatif à cette chaine, étant placé au cœur du réacteur (hautes températures et radiations), deux scénarii d’intégration de la chaine analogique en environnement sévère ont été étudiés. Tandis que le premier scénario consiste à placer le préamplificateur et l’amplificateur de mise en forme loin du détecteur, le deuxième est basé sur l’intégration de ces blocs analogiques en environnement contraint. Bien que le premier scénario ait démontré de bonnes performances en termes de linéarité et sensibilité, l’amélioration de la résolution digitale fournie par le système nous a mené à investiguer le placement de la chaine tout près du détecteur. Plusieurs études, basées sur l’évaluation de la fiabilité de la structure vis-à-vis des contraintes de l’environnement sévère ont été donc élaborées. De plus une solution innovante permettant une meilleure caractérisation de la particule incidente a été présentée et détaillée. / The work presented in this thesis is based on the study and development of an analog processing chain dedicated to the detection of particles delivred from a nuclear reactor. The radiation detector related to this chain, being placed at the heart of the reactor (high temperatures and radiation flux), two scenraii related to the integration of the analog chain in harsh environment were studied. While the first scenario consists on placing the preamplifier and the shaping amplifier away from the detector, the second is based on the integration of these analog blocks in harsh environment. Although the first scenario has proven good performances in terms of linearity and sensitivity, the improvement of the digital resolution provided by the system leaded us to investigate the placement of the chain close to the detector. Several studies based on the evaluation of the structure reliability under harsh environment constraints were thus elaborated. In addition, an innovative solution providing better characterization of the incident particle was presented and detailed.

Sureté nucléaire

Détecteur de radiations

Chaine de traitement du signal

Environnement sévère

Nuclear safety

Radiation detector

Signal processing chain

Harsh environment

Laughing in Space: Robert Heinlein's The Moon is a Harsh Mistress and Towards a New Humor Framework

Unknown Date

Humor’s effect on the audience’s relationship to the object, or speaker, of humor has often been neglected, and creating a framework by which scholars can examine how humor works to alter the relationship between audience and other fills this gap. Additionally, the definition of science fiction relies on the existence of a cognitively estranging other and under this definition, humor has not been thoroughly studied. This thesis attempts to explain how humor affects audiences cognitively, utilizing Hegel’s theory of self and other, and then applies this theoretical explanation to the field of science fiction and examines its effects. / Includes bibliography. / Thesis (M.A.)--Florida Atlantic University, 2017. / FAU Electronic Theses and Dissertations Collection

Humor in literature.

Wit and humor--Psychological aspects.

Comic, The, in literature.

Life cycles and secondary production of Ephemeroptera, Plecoptera, and Trichoptera (Insecta) under an extreme continental climate (River Kharaa, Mongolia)

Avlyush, Saulyegul

27 February 2014

Since the 1990s water quality monitoring projects using aquatic insects or macroinvertebrates as bioindication in Mongolia has mostly occurred in rivers drainage to the Arctic Ocean. They have been conducted to identify different anthropogentic stressors and impacts upon these running water ecosystems. However, there are still knowledge gaps and uncertainties concerning the research of these macroinvertebrates, in particular, a life cycle study of representative species are one such section of information missing. The specific aim for the study was to determine their life cycles and secondary production of selected species in the Kharaa River Basin, Mongolia, where these animals are exposed to harsh environment conditions. The main challenges for the research project were selecting the most suitable methods for use in the field sampling campaigns as well as establishing biomonitoring criteria for the target species under the extreme harsh climatic conditions. The research also sorts to address the pre-existing taxonomical identification problems. Consequently, a multi-habitat quantitative sampling method, and emergence traps type ‘Model week’ were selected. Five specific traits were chosen as selection criteria from the literature, where the life cycles of numerous species were investigated under comparable conditions to this study. Based on those five distinct criteria, a total of 18 species from EPT group (Ephemeroptera, Plecoptera, and Trichoptera) were selected for deeper analysis. This thesis provided the first quantitative results on the life cycle, production, growth rate and emergence of aquatic insects from Mongolia, to allow comparisons with studies in other regions using the same methods. However, it still needs more quantitative research of population dynamics for a wider range of species including fecundity, accurate development rates, mortality losses (e.g., due to predation), and food availability across environmental gradients of hydraulic conditions and substrate types. In conclusion, last not least it is essential to obtain knowledge especially about life cycle strategies of macroinvertebrates to identify the indicator-properties of single species and to predict re-colonisation potential of disturbed habitats and to evaluate the efficiency of management measures.

EPT

Lebenszyklen

Sekundärproduktion

Kontinentalen Klima

Mongolei

EPT

life cycle

secondary production

harsh climate

Mongolia

ddc:550

rvk:AR 22200

rvk:RR 67363

Conception, fabrication et caractérisation de transducteurs ultrasonores multi-éléments en environnements sévères / Ultrasonic transducers arrays for harsh environnements

Cadot, Christophe

16 December 2016

L’objectif de cette thèse était de concevoir, fabriquer, et tester des transducteurs ultrasonores multi – éléments pour des applications en environnements sévères. Dans ce contexte, des techniques de caractérisation des matériaux ont été développées afin d’adapter la conception des transducteurs en fonction des contraintes de l’environnement, et plus particulièrement la température. Deux types de conceptions ont été étudiées selon les applications visées : La première application consistait à développer un transducteur ultrasonore permettant de réaliser des contrôles non destructifs dans des réacteurs de génération IV (refroidi au sodium liquide) lors d’un arrêt de tranche. Dans ce cas, l’environnement sévère était caractérisé par une température de 200 °C, et la présence de sodium liquide. Des radiations pouvaient également être présentes. Pour cette application, un transducteur (nommé LiNa) sous la forme d’un projecteur ultrasonore linéaire de 20 éléments, fonctionnant à 2.5MHz a été fabriquée, puis testé en eau et en sodium liquide. La seconde application consistait à développer un transducteur ultrasonore permettant de réaliser des contrôles non destructifs en contact de pièces massives en cours de soudage. Une pièce massive est par exemple une cuve de réacteur nucléaire. Ce transducteur permet de détecter des défauts dans une soudure très rapidement après sa réalisation, et ainsi corriger directement cette dernière, sans attendre que les pièces soient refroidies. Pourcette application, un transducteur (nommé MaCo) sous forme de matrice 8 × 8 éléments, fonctionnant à 5MHz a été développé, et caractérisé de la température ambiante, jusqu’à 240 °C. Avec ce capteur, Avec ce capteur, des échos en ondes transversales ont été obtenus jusqu’à la température limite, sans refroidissement. / The goal of this thesis was to design, fabricate and test phased arrays ultrasonic transducers for harshenvironment applications. In this context, characterization methods were developed in order to adapt transducerdesign to the environment. We designed two types of ultrasonic phased array transducers according to theconsidered application:The first application aimed at developping an ultrasonic transducer for non destructive testing in IVth generationnuclear reactors (cooled with liquid sodium) during reactor outages. In this case, the harsh environment wascharacterized by a temperature of 200 °C, and the presence of liquid sodium. Radiations could also be present.For this application, a 20 elements 2.5MHz immersion linear projector (called LiNa) was fabricated then testedunder water and under liquid sodium.The second application aimed at developping an ultrasonic transducer in order to realize non destructive testingin contact with massive pieces during welding. A massive piece for example is a tank for nuclear plant reactor.The transducer will permit to quickly detect defects in a weld after its realization, and then correct it directlyif necessary, without waiting for the pieces to cool down at ambient temperatures. For this application,a 64elements 5MHz matrix transducer (named MaCo) were developed and tested from ambient to 240 °C. Thetransducer worked up to the limit temperature without any cooling system, and some typical defects weredetected.

Ultrasons

Transducteurs

Environnements sévères

Multi éléments

Contrôle non destructifs

Ultrasounds

Transducer

Harsh environnement

Phased arrays

Non destructive testing

534

Grenzen des Hörens: Harsh Noise Wall und die Metaphorik des Rauschens

Wallraf, David

24 October 2023

Angesichts ihrer unüberschaubaren Ausdifferenzierung scheint es heute kaum noch möglich, eine allgemeingültige Definition von Musik zu finden. Ausgehend von diesem Problem nimmt dieser Text ihre Randbereiche in den Fokus: Die Grenzen des Hörens, wie sie in extremen Formen experimenteller Musik, etwa im Harsh Noise Wall, ausgelotet werden und die Grenzen des Vernehmens, wie sie sich im stets metaphorischen Sprechen über Musik abzeichnen. Als unüberschreitbare Grenze dieser beiden Randzonen bildet die Klangfarbe das Zentrum der Argumentation und den Abschluss der Überlegungen. / Today it seems nearly impossible to find a universally valid definition of music due to its vast differentiation. Ensuing from this problem, this text focuses on music’s borders: the hearing limits as they are explored in extreme forms of experimental music (like Harsh Noise Wall) and the margins of understanding as they are shown in the use of metaphors in speaking about music. Timbre is discussed as an uncrossable border of these two aspects. These thoughts form both the focus and the conclusion of this text.

extremes of the musical, noise, timbre

info:eu-repo/classification/ddc/780

ddc:780

High Power Density and High Temperature Converter Design for Transportation Applications

Wang, Ruxi

06 August 2012

The continual development of high-power-density power electronic converters is driven particularly by modern transportation applications like electrical vehicles and more electric aircraft where the space and carrier capability is limited. However, there are several challenges related to transportation applications such as fault tolerance for safety concern, high temperature operation in extreme environments and more strict electromagnetic compatibility requirement. These challenges will increase difficulties for more electrical system adoption in the transportation applications. In this dissertation, comprehensive methodologies including more efficient energy storage solution, better power electronics devices capability, better packaging performance and more compact EMI filter design are analyzed and proposed for the goal of high power density converter design in transportation applications. / Ph. D.

High power density

Ripple energy

Single phase rectifier

High temperature

Harsh environment

Silicon carbide

Packaging

Compact EMI filter

Coupling

WIRELESS SENSOR NETWORK PLATFORM FOR HARSH INDUSTRIAL ENVIRONMENTS

El Kouche, AHMAD

28 September 2013

Wireless Sensor Networks (WSNs) are popular for their wide scope of application domains ranging from agricultural, medical, defense, industrial, social, mining, etc. Many of these applications are in outdoor type environments that are unregulated and unpredictable, thus, potentially hostile or physically harsh for sensors. The popularity of WSNs stems from their fundamental concept of being low cost and ultra-low power wireless devices that can monitor and report sensor readings with little user intervention, which has led to greater demand for WSN deployment in harsh industrial environments. We argue that there are a new set of architectural challenges and requirements imposed on the hardware, software, and network architecture of a wireless sensor platform to operate effectively under harsh industrial environments, which are not met by currently available WSN platforms. We propose a new sensor platform, called Sprouts. Sprouts is a readily deployable, physically rugged, volumetrically miniature, modular, network standard, plug-and-play (PnP), and easy to use sensor platform that will assist university researchers, developers, and industrial companies to evaluate WSN applications in the field, and potentially bring about new application domains that were previously difficult to accomplish using off the shelf WSN development platforms. Therefore, we addresses the inherent requirements and challenges across the hardware, software, and network layer required for designing and implementing Sprouts sensor platform for harsh industrial environments. We fully implement the hardware, network, and software architecture for the Sprouts platform and verify that they meet the requirements for harsh environments. We deploy the Sprouts platform customized with our PnP ultrasound sensor module in an industrial application to monitor the health conditions of Syncrude's vibration screens operating under extreme harsh conditions. Sprouts has been showcased in OCE Discovery 2011, and has been proven to be extremely valuable for industrial mining companies such as Syncrude. / Thesis (Ph.D, Computing) -- Queen's University, 2013-09-28 16:14:48.223

pnp

harsh

software

zigbee

bluetooth

wireless

industrial

DASH7

radio

communication

environment

power

sensor

microcontroller

rugged

application

transceiver

harvesting

platform

networks

syncrude

zigbee

ultrasound

sprouts

architecture

hardware