Relevant bibliographies by topics / Electronics

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Electronics'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 March 2025

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Journal articles on the topic "Electronics"

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Badilla, Gustavo López, Juan Abraham Pérez Ramos, Joaquín Díaz Algara, and Marco Antonio Rodríguez Vera. "Electronic Systems Damaged by Corrosion in The Electronics Industry of Mexicali." Paripex - Indian Journal Of Research 3, no. 6 (January 15, 2012): 77–79. http://dx.doi.org/10.15373/22501991/june2014/24.

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Ramdana, Ilham. "Company and Brand Rebranding: A Study on the Electronic Retail Industry." Jurnal Audience 5, no. 1 (September 11, 2022): 42–55. http://dx.doi.org/10.33633/ja.v5i1.5339.

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This study analyzes the rebranding process in the case of a brand change from White Brown Electronics to Informa Electronics. The method used is descriptive method with a qualitative approach. Sources of data obtained through library research and field studies in the form of observations and interviews. The research was conducted at Informa Electronics Lving World Alam Sutera in Tangerang City and the object of the research was how marketing communication strategies for electronic products at Informa Electronics. The data is analyzed through the data reduction or data sorting stage, then the data is presented or displayed, and finally concluded according to the research problem. The results show that Informa Electronics has succeeded in making people and customers believe and continue to shop at Informa Electronics. The conclusions obtained from the research are: Informa Electronics in the process of rebranding a brand involves various aspects, namely, benefit description, association, distinction, awareness or brand identity, brand image and create trust. Informa Electronics also uses various promotional media, both online and offline promotional media, to improve their marketing communication strategies. These various things were carried out in order to increase the knowledge of the public and customers about Informa Electronics so as to generate feedback, namely by buying electronic products at Informa Electronics. Informa Electronics also uses various promotional media, both online and offline promotional media, to improve their marketing communication strategies. These various things were carried out in order to increase the knowledge of the public and customers about Informa Electronics so as to generate feedback, namely by buying electronic products at Informa Electronics. Informa Electronics also uses various promotional media, both online and offline promotional media, to improve their marketing communication strategies. These various things were carried out in order to increase the knowledge of the public and customers about Informa Electronics so as to generate feedback, namely by buying electronic products at Informa Electronics.
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FURUTA, Kiyoto. "Activities in Electronic and Electronics Industry." Journal of The Institute of Electrical Engineers of Japan 126, no. 3 (2006): 146–49. http://dx.doi.org/10.1541/ieejjournal.126.146.

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Chen, Sen, and Jing Liu. "Liquid metal printed electronics towards ubiquitous electrical engineering." Japanese Journal of Applied Physics 61, SE (April 5, 2022): SE0801. http://dx.doi.org/10.35848/1347-4065/ac5761.

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Abstract Conventional electronic manufacturers are generally not easily accessible due to complicated procedures, time, material and energy consuming, and may generate potential pollution to the environment. From an alternative, liquid metal printed electronics to quickly fabricate electronic circuits and functional devices were proposed a decade before. To promote the further development and application of liquid metal printed electronics, this review aims to summarize and analyze the progress of liquid metal printed electronics from three aspects, namely electronic inks, printing technology and applications. Then, we will discuss the challenges and opportunities for further development of liquid metal printed electronics from several aspects including material modification, technological innovation, equipment upgrading and potential applications. It is expected that liquid metal printed electronics allow one to make electronics at anytime, anywhere at low cost which indicates the coming of a new era of ubiquitous electrical engineering.
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Yu, Cunjiang. "(Invited) rubbery Electronics to Seamlessly Integrate with Human Body." ECS Meeting Abstracts MA2023-01, no. 34 (August 28, 2023): 1902. http://dx.doi.org/10.1149/ma2023-01341902mtgabs.

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Electronics that can seamlessly integrate with human body could have significant impact in medical diagnostic, therapeutics. However, seamless integration is a grand challenge because of the distinct nature between electronics and human body. Conventional electronics are rigid and planar, made out of rigid materials. Human body are soft, deformable and curvilinear, comprised of biological materials, organs and tissues. This talk will introduce our solution to address the challenge through the invention of a new class of electronics, namely rubbery electronics. Rubbery electronics is constructed all based on elastic rubber electronic materials of semiconductors, conductors and dielectrics, which possesses tissue-like softness and mechanical stretchability to allow seamless integration with soft deformable tissues and organs. Rubbery electronic materials (particularly semiconductors) and device innovations set the foundation for rubbery electronics. This presentation will feature the development and understanding of rubbery semiconductors, rubbery transistors, integrated electronics, sensors and bioelectronics. In addition, rubbery electronics enabled functional systems will also be demonstrated. As a platform technology, rubbery electronics opens up numerous opportunities for many different fields such as healthcare, robotics, human-machine interfaces, artificial intelligence.
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Dandi Ramadhan, Muhammad, Iqbal Valiri Zulfikar, and Popy Rufaidah. "Analisis Rantai Nilai Industri Ritel Elektronik (Studi Kasus: PT. Electronic City Indonesia Tbk)." Jurnal Manajemen dan Organisasi 14, no. 3 (October 5, 2023): 287–96. http://dx.doi.org/10.29244/jmo.v14i3.47168.

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This research aims to produce a map of the industrial value chain at PT. Electronic City Indonesia Tbk uses the industrial value chain analysis model. Researchers use the case study method, an empirical investigation method that examines a recent case or phenomenon in depth and reality, especially when the boundary between wonder and context is unclear. The subject of this research is PT. Electronic City Indonesia Tbk. The results of the research yield information on a list of companies engaged in the Indonesian electronics retail industry, a list of companies as product suppliers for the Indonesian retail sector where they are part of the product manufacturer and assembler industry (PT. Sony Electronics Indonesia, PT. Samsung Electronics Indonesia, PT. Sharp Electronics Indonesia, PT. LG Electronics Indonesia, and others) and a list of companies that are suppliers to the product assembly industry in Indonesia located outside Indonesia (Samsung Electronic, Sharp Corporation, LG Group, and Sony Corporation and others). The value chain of the e-commerce industry conducted by PT Electronic City Indonesia Tbk is relatively simple because it only has links with producers/suppliers and end consumers. There are four actors in the value chain of the retail electronics industry: component or raw material supplier companies, manufacturing companies, retail electronics companies, and end consumers. PT. Electronic City Indonesia Tbk has no products produced under its brand and does not carry out a value-added process. This can be a threat if manufacturers or suppliers experience production problems because it will hinder product sales in the retail electronics industry.
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Balakumar Muniandi. "Bio-Electronics Interface between Electronics and Biological Systems for Healthcare Applications." Power System Technology 48, no. 1 (April 27, 2024): 698–714. http://dx.doi.org/10.52783/pst.329.

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The intersection of electronics and biology has led to the emergence of bio-electronics interfaces, which hold tremendous potential for revolutionizing healthcare applications. These interfaces facilitate seamless communication between electronic devices and biological systems, enabling a range of diagnostic, therapeutic, and monitoring capabilities with unprecedented precision and efficiency.This paper provides a comprehensive overview of the recent advancements in bio-electronics interfaces and their diverse applications in healthcare. The fundamental principles underlying the integration of electronics with biological systems, including the design and fabrication of bio-compatible materials, signal transduction mechanisms, and biointegration strategies are discussed. [1] The paper discusses specific healthcare applications enabled by bio-electronics interfaces, such as bio-sensing for disease diagnosis, neural interfaces for brain-machine communication and prosthetics, bio-electronic implants for targeted drug delivery and neuromodulation, and wearable devices for continuous health monitoring. We also examine the challenges and opportunities associated with the development and implementation of bio-electronics interfaces in healthcare settings. These challenges include biocompatibility issues, signal interference, power management, data security, and regulatory considerations. However, rapid advancements in materials science, microfabrication techniques, wireless communication, and machine learning are driving innovation and overcoming these hurdles. We highlight the potential of bio-electronics interfaces to transform personalized medicine by enabling real-time monitoring of physiological parameters, early detection of diseases, and personalized therapeutic interventions tailored to individual patients' needs. By integrating electronic devices with biological systems at the molecular, cellular, and organismal levels, bio-electronics interfaces have the potential to revolutionize healthcare delivery, improve patient outcomes, and enhance quality of life.
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Amalia Dewi, Rizky, and Budi Santoso. "Legal Aspects of Electronic Signatures In Indonesia." Eduvest - Journal of Universal Studies 2, no. 10 (October 29, 2022): 2140–48. http://dx.doi.org/10.36418/eduvest.v2i10.627.

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Study this aim for research and analyze aspect law sign hand electronic based on perspective law positive in Indonesia. Study this use method study juridical normative, with using secondary data, research conducted with use studies bibliography. Approach analysis used is descriptive analytical. Based on results study is known that sign hand electronics in essence is something sign agreement in form working electronics as form the agreement of the parties who make and carry out agreement electronics. Making sign hand electronic by agency sign hand specified electronics and mechanisms in regulation applicable legislation. Condition valid agreement electronic has determined in Article 53 paragraph 2 and Article 54 paragraph 1 and 2 of the Government Regulation concerning Organizer System and Transaction Electronic
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Amalia Dewi, Rizky, and Budi Santoso. "Legal Aspects of Electronic Signatures In Indonesia." Eduvest - Journal of Universal Studies 2, no. 10 (October 29, 2022): 2140–48. http://dx.doi.org/10.59188/eduvest.v2i10.627.

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Study this aim for research and analyze aspect law sign hand electronic based on perspective law positive in Indonesia. Study this use method study juridical normative, with using secondary data, research conducted with use studies bibliography. Approach analysis used is descriptive analytical. Based on results study is known that sign hand electronics in essence is something sign agreement in form working electronics as form the agreement of the parties who make and carry out agreement electronics. Making sign hand electronic by agency sign hand specified electronics and mechanisms in regulation applicable legislation. Condition valid agreement electronic has determined in Article 53 paragraph 2 and Article 54 paragraph 1 and 2 of the Government Regulation concerning Organizer System and Transaction Electronic
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Liu, Chenchen. "Organic Electronics: Material Innovations, Synthesis Strategies, and Applications as Flexible Electronics." Highlights in Science, Engineering and Technology 106 (July 16, 2024): 332–37. http://dx.doi.org/10.54097/zn612t89.

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Organic electronics has emerged as a transformative field in materials science, revolutionizing the development of flexible, lightweight, and cost-effective electronic components. Utilizing carbon-based organic small molecules and polymers, this technology diverges significantly from traditional inorganic electronic materials, offering unique advantages in terms of flexibility and processability. This paper provides a comprehensive review of the advancements within the field of organic electronics, focusing on essential materials such as conductive polymers, small molecule semiconductors, and organic photovoltaic materials. The paper highlights various production methods that enable large-scale and cost-effective manufacturing and explores innovations in chemical synthesis that enhance device performance and stability. Furthermore, it addresses the integration of these materials into practical applications, illustrating their potential to significantly impact the electronic device market. Despite the progress in material development, challenges remain in material durability, efficiency, and integration into existing systems. In conclusion, the field of organic electronics represents a dynamic and evolving area of materials science that holds significant promise for transforming the landscape of electronic devices.
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Dissertations / Theses on the topic "Electronics"

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Siebert, Wolfgang Peter. "Alternative electronic packaging concepts for high frequency electronics." Doctoral thesis, Stockholm, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-223.

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Xu, Shu [Verfasser]. "Graphene Electronics : Device Fabrication and Electronic Transport / Shu Xu." Kiel : Universitätsbibliothek Kiel, 2012. http://d-nb.info/1020496436/34.

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Qian, Xiaofeng. "Electronic structure and transport in molecular and nanoscale electronics." Thesis, Massachusetts Institute of Technology, 2008. http://hdl.handle.net/1721.1/44783.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Nuclear Science and Engineering, 2008.
Includes bibliographical references (p. 239-256).
Two approaches based on first-principles method are developed to qualitatively and quantitatively study electronic structure and phase-coherent transport in molecular and nanoscale electronics, where both quantum mechanical nature of electrons and dimensionality of systems play the critical roles in their electronic, magnetic and optical properties. Our first approach is based on Green's function method with ab initio quasiatomic orbitals within Landauer formalism. To efficiently and accurately apply Green's function method, we develop a minimal basis-set of quasiatomic orbitals from plane-wave density functional theory (DFT) results. This minimal basis-set resembles quasi-angular momentum characteristics in solid state systems and it further validates Slater's original idea of linear combinations of atomic orbitals. Based on their ab initio tight-binding matrices, the accuracy, efficiency and stability of our scheme are demonstrated by various examples, including band structure, Fermi surface, Mülliken charge, bond order, and quasiatomic-orbitals-projected band structure and quasiatomic-orbitals-projected Fermi surface. Remarkably these quasiatomic orbitals reveal the symmetry and chemical bonding nature of different molecular, surface and solid systems. With this minimal basis-set, quantum conductance and density of states of coherent electron transport are calculated by Green's function method in the Landauer formalism. Several molecular and nanoscale systems are investigated including atomic wires, benzene dithiolate, phenalenyl dithiolate and carbon nanotube with and without different types of defects.
(cont.) Conductance eigenchannel decomposition, phase-encoded conductance eigenchannel visualization, and local current mapping are applied to achieve deeper understandings of electron transport mechanism, including spin dependence, dimensionality dependence, defect dependence, and quantum loop current induced by time-reversal symmetry breaking. Our second approach naturally arises due to the fact that electron transport is an excited state process. Time-dependent density functional theory (TDDFT) is a fundamental approach to account for dynamical correlations of wave functions and correct band gap in DFT. In our second approach, we mainly focus on the mathematical formulation and algorithm development of TDDFT with ultrasoft pseudopotentials and projector augmented wave method. Calculated optical absorption spectrum gives correct positions and shapes of excitation peaks compared to experimental results and other TDDFT results with norm-conserving pseudopotentials. Our method is further applied to study Fermi electron transmission through benzene dithiolate molecular junction sandwiched by two gold chains. It is first verified that group velocity of Fermi electron in the gold chain obtained by TDDFT agrees with that from band structure theory. Then under rigid band and zero bias approximations, a tiny Fermi electron wave packet from the chain is injected into the molecular junction. Transmission coefficient evaluated after the scattering process is around 5%. This is in agreement with the result from Green's function method. The two methods also show similar characteristic propagation channel. This nice agreement verifies that Green's function approach based on DFT reaches the TDDFT result without dynamical electron correlations in the linear response region.
(cont.) With further development, our quasiatomic orbitals can serve as a minimal basis-set to combine non-equilibrium Green's function and TDDFT together with GW quasi-particle corrections. The unified method will provide a more accurate and efficient way to explore various molecular and nanoscale electronic devices such as chemical sensor, electromechanical device, magnetic memory, and optical electronics.
by Xiaofeng Qian.
Ph.D.
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Rajagopal, Senthil Arun. "SINGLE MOLECULE ELECTRONICS AND NANOFABRICATION OF MOLECULAR ELECTRONIC DEVICES." Miami University / OhioLINK, 2006. http://rave.ohiolink.edu/etdc/view?acc_num=miami1155330219.

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Li, Elise Yu-Tzu. "Electronic structure and quantum conductance of molecular and nano electronics." Thesis, Massachusetts Institute of Technology, 2011. http://hdl.handle.net/1721.1/65270.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2011.
Cataloged from PDF version of thesis.
Includes bibliographical references (p. 129-137).
This thesis is dedicated to the application of a large-scale first-principles approach to study the electronic structure and quantum conductance of realistic nanomaterials. Three systems are studied using Landauer formalism, Green's function technique and maximally localized Wannier functions. The main focus of this thesis lies on clarifying the effect of chemical modifications on electron transport at the nanoscale, as well as on predicting and designing new type of molecular and nanoelectronic devices. In the first study, we suggest and investigate a quantum interference effect in the porphyrin family molecules. We show that the transmission through a porphyrin molecule at or near the Fermi level varies by orders of magnitude following hydrogen tautomerization. The switching behavior identified in porphyrins implies new application directions in single molecular devices and molecular-size memory elements. Moving on from single molecules to a larger scale, we study the effect of chemical functionalizations to the transport properties of carbon nanotubes. We propose several covalent functionalization schemes for carbon nanotubes which display switchable on/off conductance in metallic tubes. The switching action is achieved by reversible control of bond-cleavage chemistry in [1+2] cycloadditions, via the 8p 3 8s p 2 rehybridization it induces; this leads to remarkable changes of conductance even at very low degrees of functionalization. Several strategies for real-time control on the conductance of carbon nanotubes are then proposed. Such designer functional groups would allow for the first time direct control of the electrical properties of metallic carbon nanotubes, with extensive applications in nanoscale devices. In the last part of the thesis we address the issue of low electrical conductivity observed in carbon nanotube networks. We characterize intertube tunneling between carbon nanotube junctions with or without a covalent linker, and explore the possibility of improving intertube coupling and enhance electrical tunneling by transition metal adsorptions on CNT surfaces. The strong hybridization between transition metal d orbitals with the CNT [pi] orbitals serves as an excellent electrical bridge for a broken carbon nanotube junction. The binding and coupling between a transition metal atom and sandwiching nanotubes can be even stronger in case of nitrogendoped carbon nanotubes. Our studies suggest a more effective strategy than the current cross-linking methods used in carbon nanotube networks.
by Elise Yu-Tzu Li.
Ph.D.
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ZAMPETTI, EMILIANO. "Future evolution of the electronics nose: technology and electronic design." Doctoral thesis, Università degli Studi di Roma "Tor Vergata", 2008. http://hdl.handle.net/2108/495.

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Lo scopo principale di questa tesi di Dottorato è uno studio approfondito sul sistema olfattivo artificiale (Naso Elettronico - EN) principalmente dedicato ad applicazioni spaziali. L'ambiente spaziale, piuttosto particolare destinato ad ospitare questo apparecchio ha richiesto particolare attenzione nella progettazione in modo da rispondere in maniera completa a tutte quelle caratteristiche elettriche e meccaniche che sono necessarie per superare tutti i test molto rigorosi di imposti dall'organizzazione internazionale di volo spaziale. La progettazione particolarmente orientata verso l'ottimizzazione generale del sistema, ha prodotto un fattore di qualità generale che, crediamo, influenzerà tutte le applicazioni terrestri nelle quali le prestazioni possono essere di un livello più basso. La strategia di progettazione adottata e seguita nel corso dei tre anni ha considerato i seguenti punti: a) miniaturizzazione dell'EN precedente (Libra Nose) senza ridurre la flessibilità digitale, includendo tutti i circuiti di interfaccia in un singolo FPGA; b) miglioramento della parte analogica, in particolare un nuovo disegno degli oscillatori e dell'interfaccia analogica verso i sistemi digitali di conteggio. A tale scopo una cura particolare al livello di progettazione è stata rivolta verso: la riduzione degli spazi occupati e il consumo, usando tensioni di alimentazione nel range che va da 5 V. a 3V. e perfino 1.8 V.: riduzione di tutte le interferenze fra i sensori; c) l’introduzione di due nuove tecniche che migliorano le prestazioni della coppia sensore-oscillatore. La prima si basa sull'utilizzazione di un singolo oscillatore per tutti i sensori QCM, riducendo lo spazio occupato per i circuiti da N a 1, dove la N è la dimensione della matrice di sensori. L'altra tecnica si basa sull'idea di commutazione di misura di frequenza su ogni oscillatore, uno alla volta accendendo e spegnendo l’oscillatore posto sotto misura. In tal modo si risparmia energia e si ha un rapporto migliore di segnale/disturbo; d) l'aumento delle prestazioni generali della parte di rilevamento riguardo alla possibilità di aumento della sensibilità verso i composti volatili, attraverso l'introduzione di un riscaldatore integrato sulla superficie del quarzo. L'idea di base considera il fatto che la presenza di un tal riscaldatore contribuisce, una volta attivato, alla riduzione del tempo di desorbimento e di conseguenza, riduce il tempo di recupero nella fase di pulizia. In questo contesto è stato utilizzato un sistema di controllo termico, basato sulla tecnica Δ. Tale sistema può migliorare la ‘tunabilità’ della sensibilità/selettività del sensore chimico (QCM) nei confronti di vari composti volatili. Inoltre, grazie all’utilizzazione del controllo termico sigma-delta, per la prima volta un sensore di flusso è stato integrato su QCM. Il risultato principale di questa tesi è stata l’accettazione a nome dell'agenzia europea spaziale (ESA) di un Naso Elettronico dedicato spazio che effettivamente è stato utilizzato nella missione di ENEIDE del 2005. Le prove passate per la valutazione dei criteri di costruzione ‘Spazio’ insieme ai risultati ottenuti durante la missione hanno confermato il successo della progettazione fatta nella prima parte di questa tesi. Ulteriori miglioramenti sono stati realizzati nell'ultimo periodo di tesi permettendo la realizzazione di uno strumento in grado di ‘vivere’ molto tempo nelle missioni interplanetarie e cosa di notevole importanza, di essere impiegato in molte delle applicazioni terrestri come: nell’industria, nell’alimentazione, nell’agricoltura, e nella medicina.
The principal aim of this PhD thesis is a deep study of an artificial olfaction system (Electronic Nose – EN) mainly dedicated to space applications. The rather particular environment destined to host this apparatus has required a particular attention on many of the design details in order to infer about all those electrical and mechanical features which are necessary to overcome the very stringent stress parameters imposed by the space flight international organization. The request of a particular effort oriented to the overall optimization has produced a general quality factor which, we believe, will influence also all the terrestrial applications where performances may be of a lower level. The adopted strategy which was hold along the past three years has regarded the following points: a) miniaturization of the previous EN (Libra Nose) without reducing the digital flexibility and including all the interface circuits in a single FPGA; b) improvement of the analog part, in particular a new design of the oscillators, and of the analog interface toward the digital part. To this purpose a particular care at the design level has been paid towards: the reduction of occupied spaces, and consumption by using working supply voltages from 5 V. to 3V. and even 1,8 V.: reduction of about all the interferences among sensors; c) introduction of two new techniques improving the performances of the couple QCM sensor and oscillator; one of them is based on the utilization of a single oscillator for all the QCM sensors, reducing the occupied space for the circuits from N to 1, where N is the dimension of the sensor matrix; the other technique concerns the idea of performing the frequency measurement switching on each oscillator one in a time, saving in this way energy and achieving a better signal to noise ratio; d) increasing the overall performances of the sensing part with respect to the capability of increasing the sensitivity towards volatile compounds through the introduction of an integrated heater applied to one of the quartz surfaces. The basic idea considers the fact that the presence of such a heater contributes, once activated, to reduce the desorption time and, as a consequence, to reduce the recovery time in the cleaning phase. In this context by using a control system of the thermal sigma delta (TΔ) type, it has been proven that a better performance on the sensitivity/selectivity tuning with respect to the volatile compound adsorption, can be achieved. Moreover, by means of the utilization of the thermal sigma delta control, for the first time a flow sensor has been embedded on QCM. The main result of this thesis has been the acceptation on behalf of the International Space Agency of a space dedicated EN which was indeed used in the frame of the SOYUZ Mission. The passed space tests together with the results obtained during the Mission have confirmed the outstanding design done in the first part of this thesis. Further improvements have been achieved in the last thesis period allowing the availability of an instrument able to live long time in interplanetary Missions and as an important throughput, to be employed in many of the terrestrial applications regarding the industrial, food and agricultural, medicine, and ambient context.
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Zhu, Zhineng. "Low Noise Offset Operational Amplifier for Nanopore-based Gene Sequencer." Fogler Library, University of Maine, 2007. http://www.library.umaine.edu/theses/pdf/ZhuZ2007.pdf.

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Loftin, Guy L. "Relationships among electronics troubleshooting, mathematics, and electronics knowledge." Diss., Virginia Tech, 1994. http://hdl.handle.net/10919/40156.

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One purpose of this study was to determine the relationships among community college students' mathematics, electronics, and electronics troubleshooting knowledge. A second purpose of the study was to determine the extent to which independent variables predicted troubleshooting knowledge. Students involved in the study were enrolled in electronics technician associate degree granting programs. More specifically the study was designed to examine the relationships among electronics troubleshooting knowledge and the following independent variables: 1. Number of mathematics courses taken at the community college level 2. Types of mathematics courses taken at community college level 3. Mathematics knowledge as measured by scores on a standardized mathematics test 4. Number of electronics courses taken at the high school level 5. Number of electronics courses taken at the community college level 6. Prior work experience in the electronics industry In addition to examining these variables, this study also sought to answer the question: Which combination of variables best tends to predict troubleshooting knowledge? Usable data were gathered from 100 North Carolina community college students who were enrolled in electronics technician degree granting programs at five randomly selected community colleges. The students participating in this study were administered three data gathering instruments. The instruments included a Student Information and Data Sheet designed to gather demographic information about each student, a standardized mathematics knowledge test designed to cover the mathematical concepts stressed in elementary, intermediate and college algebra, and finally, a paper and pencil electronics and troubleshooting test which consisted of troubleshooting an AM transceiver functional block diagram, a servicing block diagram, a power supply, and a summing circuit. It was determined that under the conditions imposed by this study only one of the independent variables, score on the Mathematics Knowledge Test, could be used with some accuracy to predict troubleshooting knowledge. The independent variable mathematics knowledge, as represented by scores on the standardized mathematics knowledge test, could only predict troubleshooting knowledge with 6.8% percent accuracy.
Ed. D.
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Flanagan, Beavan. "Turning over, for 13 instruments, piano, electronic microtonal piano and electronics." Thesis, McGill University, 2013. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=116997.

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Turning Over is a 13-minute composition for 13 instruments, piano, electronic piano and pre-recorded electronics. A strong emphasis on harmony, representing the result of two years of research into various intonation theories of the 17th, 18th and 20th centuries, is reflected in the subtle variations in intonation between the equal-tempered acoustic instruments and the just-intonation tuning of the electronics as well as the electronic piano. The musical discourse reflects philosophical concerns regarding the concept of essence in music and its illusive nature – this translates into a musical form that is in a constant state of transformation.
Turning Over ('ressasser') est une composition pour 13 instruments, piano, piano électronique et sons électroniques d'une durée de 13 minutes. Un fort accent sur l'harmonie, qui est le résultat de deux années de recherche sur les théories du tempérament musical du 17e, 18e et 20e siècle, est reflété dans les variations subtiles de tempérament entre les instruments acoustiques et les éléments électroniques. Le discours musical reflète des préoccupations philosophiques concernant le concept de l'essence dans la musique et de sa nature illusoire – ceci se traduit dans une forme musicale qui est toujours en état de transformation.
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Georgiev, Vihar Petkov. "Electronic structure/function relationships in metal nanowires : components for molecular electronics." Thesis, University of Oxford, 2011. http://ora.ox.ac.uk/objects/uuid:594d870f-feef-474b-98e9-5f09505908a3.

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The dramatic expansion of the electronics industry over the past 40 years has been based on the progressive reduction in size of the silicon-based semiconductor components of integrated circuits. The miniaturisation of semi-conductor circuits cannot, however, continue indefinitely, and we are rapidly approaching the stage where quantum effects will prevent further dramatic improvements in computer performance using existing technology. As a result, the field of molecular electronics, which seeks to identify and develop much smaller molecular analogues of the transistors that make up integrated circuits, has expanded rapidly over the past few years. Recent studies suggested that extended metal atom chains (EMAC) may have many potential applications in molecular electronics, but it is clear that this potential can only be realised if we establish a link between the fundamental electronic properties of these systems and the transport of electrons. For this reason the ultimate goal of this thesis is to relate the electronic structure of extended metal chains to their electron transport properties. We address the problem using non-equilibrium Green’s function, in conjugation with density functional theory. In the results sections of this thesis we present calculations on tricobalt, trichromium and trinickel chains. Our data suggested that in the trimetal chains, the dominant electron transport channel is the σ manifold, while the π systems establish the contact with the electrodes. The implication of this is that even when the highly polarized π channels are strongly rehybridised by the applied electric field, current flow is not affected. In the trichromium systems we find that the distortion of the chain away from the symmetric equilibrium structure does not perturb the current flow but rather enhances it. Our rather counter intuitive conclusion is therefore that ‘broken wires’ (highly unsymmetric) are more efficient conductors than their symmetric counterparts. We have performed calculation on longer penta- and heptacobalt structures chains to establish the extent to which longer structures attenuate the conductance. Our calculations show significant oscillations of the conductance due to development of a one-dimensional band structure about the Fermi level. The evolution of the electron transport properties in cobalt chains with different length is a complex one, but it is clear that narrowing the band gap in longer chains makes it increasingly likely that the Fermi level will be in resonance with one or more of the orbitals of the extended metal atom chain.
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Books on the topic "Electronics"

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Ishii, Hisao, Kazuhiro Kudo, Takashi Nakayama, and Nobuo Ueno, eds. Electronic Processes in Organic Electronics. Tokyo: Springer Japan, 2015. http://dx.doi.org/10.1007/978-4-431-55206-2.

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London), Saraga Colloquium on Electronic Filters (1989. Electronics Division Saraga Colloquium "Electronic filters". London: Institution of Electrical Engineers, 1989.

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Kristof, Sienicki, ed. Molecular electronics and molecular electronic devices. Boca Raton, FL: CRC Press, 1993.

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S, Montague, ed. New electronic instruments and live electronics. London: Harwood Academic, 1991.

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Kolawole, Michael Olorunfunmi. Electronics. First edition. | Boca Raton, FL : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003052913.

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Kybett, Harry. Electronics. 2nd ed. New York: Wiley, 1986.

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Marchenko, Aleksey, and Mihail Nemcov. Electronics. ru: INFRA-M Academic Publishing LLC., 2023. http://dx.doi.org/10.12737/1587595.

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The material of module 2 "Electronics" is systematically presented in accordance with the modern university program of the discipline " Electrical Engineering and Electronics" for non-electrotechnical areas of training of bachelors and certified specialists. The element base of semiconductor electronics devices is considered: classification, voltage and frequency characteristics, features of the use of electronic devices in various operating modes are given. The principles of construction and functioning of typical analog, pulse and digital devices are described in detail. A separate chapter is devoted to the principles of converting light energy into electrical energy and vice versa, the design and operation of optoelectronic devices and fiber- optic lines of information transmission. Meets the requirements of the federal state educational standards of higher education of the latest generation. For students of higher educational institutions studying in non-electro- technical areas of bachelor's and graduate training.
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O'Hare, Elspeth. Electronics. Princeton, N.J: Films for the Humanities and Sciences, 2006.

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Open University. Analogue and Digital Electronics Course Team, ed. Electronics. [Place of publication not identified]: Stanley Thornes/Open University, 2000.

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Bridgman, Roger Francis. Electronics. London: Dorling Kindersley, 1993.

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Book chapters on the topic "Electronics"

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Kobayashi, Norihisa, and Kazuki Nakamura. "DNA Electronics and Photonics." In Electronic Processes in Organic Electronics, 253–81. Tokyo: Springer Japan, 2014. http://dx.doi.org/10.1007/978-4-431-55206-2_12.

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Lyshevski, Sergey Edward. "Electronics and Power Electronics." In Mechatronics and Control of Electromechanical Systems, 293–338. Boca Raton : CRC Press, 2017.: CRC Press, 2017. http://dx.doi.org/10.1201/9781315155425-7.

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French, Richard Mark. "Electronics." In Technology of the Guitar, 147–208. Boston, MA: Springer US, 2012. http://dx.doi.org/10.1007/978-1-4614-1921-1_4.

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Keighley, H. J. P., F. R. McKim, A. Clark, and M. J. Harrison. "Electronics." In Mastering Physics, 257–80. London: Macmillan Education UK, 1986. http://dx.doi.org/10.1007/978-1-349-86062-3_27.

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Keighley, H. J. P., F. R. McKim, A. Clark, and M. J. Harrison. "Electronics." In Mastering Physics, 257–80. London: Macmillan Education UK, 1986. http://dx.doi.org/10.1007/978-1-349-08849-2_27.

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de Croon, G. C. H. E., M. Perçin, B. D. W. Remes, R. Ruijsink, and C. De Wagter. "Electronics." In The DelFly, 41–54. Dordrecht: Springer Netherlands, 2015. http://dx.doi.org/10.1007/978-94-017-9208-0_4.

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Keighley, John, and Stephen Doyle. "Electronics." In Physics GCSE, 147–62. London: Macmillan Education UK, 1998. http://dx.doi.org/10.1007/978-1-349-14325-2_13.

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Slama, Sebastian. "Electronics." In Experimental Physics Compact for Scientists, 209–41. Berlin, Heidelberg: Springer Berlin Heidelberg, 2023. http://dx.doi.org/10.1007/978-3-662-67895-4_9.

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Breithaupt, Jim. "Electronics." In Physics, 218–34. London: Macmillan Education UK, 1999. http://dx.doi.org/10.1007/978-1-349-14825-7_17.

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Weik, Martin H. "electronics." In Computer Science and Communications Dictionary, 503. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_5997.

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Conference papers on the topic "Electronics"

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Bossuyt, F., S. Dunphy, J. Vanfleteren, J. De Baets, K. Pacheco Morillo, and J. Van den Brand. "Plastic electronics based conformable electronic circuits." In 2012 4th Electronic System-Integration Technology Conference (ESTC). IEEE, 2012. http://dx.doi.org/10.1109/estc.2012.6542085.

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Arnold, John M. "Teaching quantum electronics to electronic engineering undergraduates." In Education and Training in Optics and Photonics 2001. SPIE, 2002. http://dx.doi.org/10.1117/12.468723.

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DeVoto, Douglas, and Patrick McCluskey. "Reliable Power Electronics for Wind Turbines." In ASME 2009 International Mechanical Engineering Congress and Exposition. ASMEDC, 2009. http://dx.doi.org/10.1115/imece2009-11776.

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Power electronics are used in wind turbines to convert variable voltages and frequencies produced by the generator to fixed voltages and frequencies compliant with an electrical grid with minimal losses. The power electronic system is based on a series of three-phase pulse width modulated (PWM) power modules consisting of insulated-gate bipolar transistor (IGBT) power switches and associated diodes that are soldered to a ceramic substrate and interconnected with wirebonds. Power electronics can generate thermal loads in the hundreds of watts/cm2, therefore the design of the packaging and cooling of the electronics is crucial for enhancing their energy efficiency and reliability. Without adequate heat removal, the increase in device temperature will reduce the efficiency of power electronic devices, leading to thermal runaway and eventual failure of the entire power electronic system. Furthermore, the increased temperatures can lead to failure of the packaging elements. Turbines utilizing these power electronics are often placed in harsh and inaccessible offshore environments; power electronic failures causing unscheduled maintenance lead to costly repairs. This paper will provide an overview of the fundamental package level mechanisms that can cause failures in the power electronic system. These include wirebond and lead fatigue, die attach fatigue, substrate cracking, and lead micro-voids. Attention will then be given to the reliability of a plastic-insert liquid cold plate used to manage the thermal loads from the power electronics.
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Auston, D. H., K. P. Cheung, J. A. Valdmanis, and P. R. Smith. "Ultrafast Optical Electronics: From Femtoseconds to Terahertz." In Picosecond Electronics and Optoelectronics. Washington, D.C.: Optica Publishing Group, 1985. http://dx.doi.org/10.1364/peo.1985.wa1.

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The use of optical techniques to generate and measure fast electronic events is a challenging approach to high speed electronics with many important potential advantages relative to conventional electronic instrumentation.
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"[Title page]." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995213.

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"Copyright." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995214.

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"Chairs & committee." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995215.

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"Invited speaker." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995216.

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"Table of contents." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995217.

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Senberber, Halit, and Aytekin Bagis. "Fractional PID controller design for fractional order systems using ABC algorithm." In 2017 Electronics. IEEE, 2017. http://dx.doi.org/10.1109/electronics.2017.7995218.

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Reports on the topic "Electronics"

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Al Raisi, Issa, Walter Augustin, Mark Calambro, Steven Cohen, Michael Daniel, Matthew Dapson, William Hall, Dona Hanley, David Hergenroeder, and Martin Jacoby. Electronics. Fort Belvoir, VA: Defense Technical Information Center, January 2001. http://dx.doi.org/10.21236/ada524089.

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Steier, William H. Research in Electronics Joint Services Electronics Program. Fort Belvoir, VA: Defense Technical Information Center, December 1986. http://dx.doi.org/10.21236/ada177289.

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Steier, William H. Joint Service Electronics Program: Research in Electronics. Fort Belvoir, VA: Defense Technical Information Center, June 1988. http://dx.doi.org/10.21236/ada199659.

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Steier, W. H. Joint Services Electronics Program Research in Electronics. Fort Belvoir, VA: Defense Technical Information Center, June 1994. http://dx.doi.org/10.21236/ada292516.

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Steier, William H. Joint Services Electronics Program: Research in Electronics. Fort Belvoir, VA: Defense Technical Information Center, June 2000. http://dx.doi.org/10.21236/ada380040.

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Likharev, Konstantin K., Dmitri V. Averin, and James E. Lukens. Single-Electronics. Fort Belvoir, VA: Defense Technical Information Center, May 1995. http://dx.doi.org/10.21236/ada295698.

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Likharev, Konstantin K., Dmitri V. Averin, and James E. Lukens. Single Electronics. Fort Belvoir, VA: Defense Technical Information Center, May 1998. http://dx.doi.org/10.21236/ada346383.

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Lukens, James E., Dmitri V. Averin, and Konstantin K. Likharev. Single-Electronics. Fort Belvoir, VA: Defense Technical Information Center, April 2001. http://dx.doi.org/10.21236/ada387691.

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Itoh, Tatsuo. Joint Services Electronics Program on Millimeter Wave Electronics. Fort Belvoir, VA: Defense Technical Information Center, January 1999. http://dx.doi.org/10.21236/ada360035.

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Bonheim, Michael, Gregory Burns, George Hoffer, Diana Keys, Valentyn Kovalenko, Alan Maitland, William Marks, Andrew Marotta, Neal McMahon, and Stanley Specht. Electronics Industry Study Report: Semiconductors and Defense Electronics. Fort Belvoir, VA: Defense Technical Information Center, January 2003. http://dx.doi.org/10.21236/ada524792.

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