Global ETD Search

21	Analog integrated circuit design using GaAs C-HFETs Gupta, Rakhee 31 August 1992 (has links) Present day data processing technology requires very high speed signal processing and data conversion rates. One such application which requires high speed is switched capacitor circuits used in Sigma-Delta modulators. A major active component of switched capacitor circuits is the monolithic operational amplifier(opamp). Because of the relatively poor speed performance of the currently available silicon based technology, such high speed circuits can not be designed. GaAs technology appears to be a promising alternative technology for high speed switched capacitor circuits. One problem with GaAs is the lack of complementary technology. Until now, most of the design of GaAs analog integrated circuits has been implemented using depletion mode n-MESFETs, where operational amplifiers and switched capacitors have been developed by various groups. This thesis develops the techniques for implementation of analog integrated circuits using complementary GaAs Heterojunction Field Effect Transistors(HFETs). Several operational amplifiers have been designed and their performance studied via simulation. The designs studied predict superior high frequency performance for C-HFETs over conventional GaAs MESFET and Silicon CMOS technology. The opamp designs are currently being implemented at Oregon State University for fabrication in the future. / Graduation date: 1993 Gallium arsenide semiconductors Junction transistors Field-effect transistors
22	A study of deep levels of AlGaAs/GaAs heterojunction bipolar transistors Huang, Chun-ta 10 July 1992 (has links) A study of deep levels of the emitter region of a heterojunction bipolar transistor is investigated using deep level transient spectroscopy (DLTS), deep level admittance spectroscopy (DLAS), thermally stimulated capacitance (TSCAP), and capacitance-voltage (C-V) profiling. The DX center, with an activation energy of 0.45 eV, is the only deep level detected. By varying the DLTS rate window and filling pulse widths, DX is found to be comprise of two closely spaced DX centers, denoted DX1 and DX2. A positive peak observed in the DLTS spectra is attributed to electron capture, not minority carrier emission, and, thus, is an experimental artifact. Finally, the reduction of current gain (β) at low collector current and the effect of the DX center on the switching characteristics of HBTs are briefly discussed. / Graduation date: 1993 DX centers (Solid state physics) Gallium arsenide semiconductors Junction transistors Bipolar transistors
23	Effectiveness of parallel diode linearizers on bipolar junction transistor and its use in dynamic linearization / Yu, Chi Sun. January 2009 (has links) (PDF) Thesis (Ph.D.)--City University of Hong Kong, 2009. / "Submitted to Department of Electronic Engineering in partial fulfillment of the requirements for the degree of Doctor of Philosophy." Includes bibliographical references (leaves 129-134)
24	Radiation Hardness of 4H-SiC Devices and Circuits Suvanam, Sethu Saveda January 2017 (has links) Advances in space and nuclear technologies are limited by the capabilities of the conventional silicon (Si) electronics. Hence, there is a need to explore materials beyond Si with enhanced properties to operate in extreme environments. In this regards, silicon carbide (4H-SiC), a wide bandgap semiconductor, provides suitable solutions. In this thesis, radiation effects of 4H-SiC bipolar devices, circuits and dielectrics for SiC are investigated under various radiation types. We have demonstrated for the first time the radiation hardness of 4H-SiC logic circuits exposed to extremely high doses (332 Mrad) of gamma radiation and protons. Comparisons with previously available literature show that our 4H-SiC bipolar junction transistor (BJT) is 2 orders of magnitude more tolerant under gamma radiation to existing Si-technology. 4H-SiC devices and circuits irradiated with 3 MeV protons show about one order of magnitude higher tolerance in comparison to Si. Numerical simulations of the device showed that the ionization is most influential in the degradation process by introducing interface states and oxide charges that lower the current gain. Due to the gain reduction of the BJT, the voltage reference of the logic circuit has been affected and this, in turn, degrades the voltage transfer characteristics of the OR-NOR gates. One of the key advantages of 4H-SiC over other wide bandgap materials is the possibility to thermally grow silicon oxide (SiO2) and process device in line with advanced silicon technology. However, there are still questions about the reliability of SiC/SiO2 interface under high power, high temperature and radiation rich environments. In this regard, aluminium oxide (Al2O3), a chemically and thermally stable dielectric, has been investigated. It has been shown that the surface cleaning treatment prior to deposition of a dielectric layer together with the post dielectric annealing has a crucial effect on interface and oxide quality. We have demonstrated a new method to evaluate the interface between dielectric/4H-SiC utilizing an optical free carrier absorption technique to quantitative measure the charge carrier trapping dynamics. The radiation hardness of Al2O3/4H-SiC is demonstrated and the data suggests that Al2O3 is better choice of dielectric for devices in radiation rich applications. / <p>QC 20170119</p> Silicon carbide radiation hardness protons gamma radiation bipolar junction transistors aluminium oxide surface recombination.
25	Improvement of ON-Characteristics in SiC Bipolar Junction Transistors by Structure Designing Based on Analyses of Material Properties and Carrier Recombination / 材料物性およびキャリア再結合の解析に基づいたデバイス構造考案による SiCバイポーラトランジスタのオン特性向上 Asada, Satoshi 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21772号 / 工博第4589号 / 新制\|\|工\|\|1715(附属図書館) / 京都大学大学院工学研究科電子工学専攻 / (主査)教授木本恒暢, 教授藤田静雄, 准教授杉山和彦 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM Silicon Carbide Bipolar junction transistors p-type SiC Current gain ON-resistance Conductivity modulation 500
26	Wide bandgap collector III-V double heterojunction bipolar transistors Flitcroft, Richard M. January 2000 (has links) No description available. 621.31042
27	Three-dimensional effects and surface breakdown addressing efficiency and reliability problems in avalanche bipolar junction transistors Duan, G. (Guoyong) 19 February 2013 (has links) Abstract Although avalanche switching has been known since the 1950s, a trustworthy one-dimensional physical interpretation of the practically interesting high-current mode ("secondary breakdown") in a Si avalanche transistor has appeared only within the last decade and thanks to numerical one-dimensional and two-dimensional physics-based device modelling. A good fit with experimental waveforms has been achieved only for high-current, long-duration pulses (~100 A/7 ns), however, and modelling fails in the case of shorter pulses in a range that is of greater practical importance. One significant finding in this thesis is that reliable modelling of a Si avalanche transistor is in general impossible without taking account of three-dimensional effects. The task is a challenging one, as it is being put forward for the first time and state-of-the-art simulators are unable to model three-dimensional avalanche dynamics with an external circuit included (i.e. in “MixedMode”). Thus a smart approach was adopted which allowed the main features of the three-dimensional transient to be explained using a two-dimensional simulator and compared with the experimental data. The focus was on a trade-off of between high switching efficiency in an avalanche transistor (high-speed switching with a lower residual voltage as occurs at extremely high current densities) and device reliability as determined by local overheating during a single pulse, similarly resulting from high current density. This denotes the practical importance of the work performed here, as the current density is directly affected by three-dimensional dynamic processes. The second task performed in this thesis concerns the reliability of the GaAs avalanche transistors developed recently in the Electronics Laboratory and demonstrated of unique (superfast) switching and high-power-density sub-THz emission for mm-wave imaging and radars. Critically important for this new device is the limitation originating from premature breakdown at the surface of the GaAs p-n junction with a high density of surface states. Two of the results of this work are also fairly challenging: (i) the mechanism of "soft" surface breakdown intrinsic to all GaAs transistor mesas was interpreted in terms of the surface trapping of avalanche-generated electrons as suggested here, and (ii) passivation of the surface with a chalcogenide glass was suggested, as this allows the premature surface breakdown to be suppressed completely, an effect that has proved to be caused by a large negative surface charge formed on the “U centres” intrinsic to a chalcogenide glass. / Tiivistelmä Vaikka avalanche läpilyönti pii-transistoreissa on tunnettu jo 1950-luvulta lähtien, luotettava 1-dimensionaalinen fysikaalinen tulkinta ilmiöstä käytännön sovellusten kannalta kiinnostavilla suurilla virtatasoilla (ns. “secondary breakdown”) on esitetty vasta viime vuosikymmenen aikana 1- ja 2-dimensionaalisiin numeerisiin simulointeihin ja fysikaaliseen mallinnukseen perustuen. Kokeellisten mittausten ja simulointien välille on saatu hyvä sovitus kuitenkin vain sellaisessa ohjaustilanteessa, jossa transistori toimii suurella virtatasolla ja tuottaa leveitä virtapulsseja (~100  A / 7 ns); mallinnus ei vastaa mittaustuloksia lyhyillä virtapulsseilla, jotka kuitenkin ovat tärkeitä käytännön sovellusten kannalta. Yksi tämän työn keskeisiä havaintoja on se, että piipohjaisen avalanche transistorin luotettava mallintaminen ei ole käytännössä yleisesti mahdollista ottamatta huomioon 3-dimensionaalisia (3D) efektejä. Tällainen mallinnus, jota tässä työssä on kehitetty ensimmäistä kertaa, on vaikeaa, koska kaupalliset simulointiohjelmistot eivät kykene käsittelemään avalanche ilmiön dynamiikka 3-dimensionaalisesti tilanteessa, jossa transistoriin on kytketty ulkoinen piiri (ns. mixed-mode -simulointitilanne). Tähän kehitettiin tekniikka, joka mahdollistaa 3-dimensionaalisen kytkentätransientin tärkeimpien piirteiden selittämisen ja mittaustuloksiin vertaamisen 2-dimensionaalisten simulointien perusteella. Erityisesti pyrittiin selvittämään avalanche transistorin korkean kytkentähyötysuhteen (kollektori-emitterin ns. residual-jännitteen käyttäytyminen virrantiheystason mukaan) ja komponentin luotettavuuden välistä riippuvuutta. Luotettavuuteen vaikuttaa olennaisesti komponentin sisäinen, lokalisoitunut lämpötilamaksimi, joka myös riippuu keskeisesti komponentin virrantiheystasosta kytkentäpulssin aikana. Toisaalta virrantiheyteen vaikuttavat juuri komponentin 3-dimensionaaliset dynaamiset prosessit, joten työn käytännöllinen merkitys on suuri. Työn toisen osa käsittelee elektroniikan laboratoriossa äskettäin kehitetyn GaAs-avalanche transistorin luotettavuutta. Tällaisella transistorilla on demonstroitu olevan erityislaatuinen supernopea kytkeytymisefekti, ja se emittoi korkealla tehotasolla sähkömagneettista säteilyä n. 0,1–1 THz taajuusalueella. GaAs-avalanche transistoria voidaan täten potentiaalisesti hyödyntää mm-alueen kuvantamisessa ja tutkissa. Tämän uuden transistorin luotettavuuteen vaikuttaa ratkaisevasti rajoitus, joka aiheutuu ennenaikaisen, GaAs-pn-liitoksen pinnassa vaikuttavasta suuresta pintatilatiheydestä johtuvan läpilyönnin mahdollisuudesta. Työn kaksi keskeistä tulosta ovat: (i) kaikilla GaAs-transistoreilla ilmenevä ns. ”pehmeä”-läpilyönti aiheutuu avalanche ilmiön synnyttämien elektronien loukkuuntumisesta pinta-tiloihin, ja (ii) pinnan passivointi kalkopyriittilasilla estää läpilyönnin kokonaan, koska kalkopyriittilasille luonteenomaiset ”U-tilat” aiheuttavat liitoksen pintaan korkean negatiivisen pintavarauksen. avalanche breakdown bipolar junction transistors experiment high speed switch simulation surface breakdown avalanche läpilyönti bipolaaritransistori kokeellinen nopea kytkin pintaläpilyönti simulaatio
28	Desenvolvimento de sistemas e medida de ruído de alta e baixa frequência em dispositivos semicondutores / System for high and low frequency noise measurements design and semiconductor devices characterization Manera, Leandro Tiago, 1977- 15 August 2018 (has links) Orientador: Peter Jurgen Tatsch / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-15T23:27:09Z (GMT). No. of bitstreams: 1 Manera_LeandroTiago_D.pdf: 3739799 bytes, checksum: 12a6fc4ebbea20e529e4e7e2c7c5a761 (MD5) Previous issue date: 2010 / Resumo: Este trabalho teve como objetivo a montagem de um sistema de caracterização de ruído de alta e de baixa freqüência, utilizando equipamentos disponíveis no Centro de Componentes Semicondutores da Unicamp. Foi montado um sistema para a caracterização do ruído de baixa freqüência em dispositivos semicondutores e desenvolveu-se um método para a análise da qualidade de interfaces e cálculo de cargas, utilizando o ruído 1/f. Na descrição do ruído em baixa freqüência é apresentado em detalhes todo o arranjo utilizado para a medição, além dos resultados da medida em transistores nMOS e CMOS do tipo p e do tipo n fabricados no Centro. Detalhes importantes sobre o cuidado com a medição, tais como a utilização de baterias para a alimentação dos dispositivos e o correto aterramento, também são esclarecidos. A faixa de freqüência utilizada vai de 1 Hz até 100 KHz. Como aplicação, a medida de ruído é utilizada como ferramenta de diagnóstico de dispositivos semicondutores. Resultados destas medidas também são apresentados. Foi desenvolvido também um sistema para a medição do ruído em alta freqüência. A caracterização teve como objetivo determinar o parâmetro conhecido como Figura de Ruído. Apresenta-se além da descrição do arranjo utilizado na medição, os equipamentos e a metodologia empregada. Em conjunto com as medidas de ruído também são apresentados os resultados das medidas de parâmetros de espalhamento. Para a validação do método de obtenção desse conjunto de medidas, um modelo de pequenos sinais de um transistor HBT, incluindo as fontes de ruído é proposto, e é apresentado o resultado entre a medição e a simulação. A faixa disponível para medida vai de 45 MHz até 30 GHz para os parâmetros de espalhamento e de 10 MHz até 1.6 GHz para medida de figura de ruído / Abstract: The main goal of this work is the development of a noise characterization system for high and low frequency measurements using equipments available at the Center for Semiconductor Components at Unicamp. A low noise characterization system for semiconductors was built and by means of 1/f noise measurement it was possible to investigate semiconductor interface condition and oxide traps density. Detailed information about the test set-up is presented along with noise measurement data for nMOS, p and n type CMOS transistors. There is also valuable information to careful conduct noise measurements, as using battery powered devices and accurate grounding procedures. The low noise set-up frequency range is from 1 Hz up to 100 KHz. Noise as a diagnostic tool for quality and reliability of semiconductor devices is also presented. Measurement data is also shown. A measurement set-up for high frequency noise characterization was developed. Measurements were carried out in order to determine the noise figure parameter (NF) of the HBT devices. Comprehensive information about the test set-up and equipments are provided. Noise data measurements and s-parameters are also presented. In order to validate the measurement procedure, a small signal model for HBT transistor including noise sources is presented. Comparisons between simulation and measured data are performed. The s-parameters frequency range is from 45 MHz to 30 GHz, and noise set-up frequency range is from 10 MHz up to 1.6 GHz / Doutorado / Eletrônica, Microeletrônica e Optoeletrônica / Doutor em Engenharia Elétrica Ruído Semicondutores Amplificadores (Eletrônica) Transistores bipolares Noise Semiconductors Amplifiers Bipolar junction transistors
29	Design of measurement circuits for SiC experiment : KTH student satellite MIST / Konstruktion av mätkretsar för SiC-experimentet Ericson, Matthias, Silverudd, Johan January 2016 (has links) SiC in Space is one of the experiments on KTH’s miniature satellite, MIST. The experiment carries out tests on bipolar junction transistors of silicon and silicon carbide. This thesis describes how the characteristics of a transistor can be measured using analog circuits. The presented circuit design will work as a prototype for the SiC in Space experiment. The prototype measures the base current, the collector current, the base-emitter voltage as well as the temperature of the transistor. This thesis describes how a test circuit may be designed. The selected design has been constructed in incremental steps, with each design choice explained. Different designs have been developed. The designs have been verified with simulations. We have also constructed and tested three different prototypes on breadboards and printed circuit boards. / SiC in Space är ett av experimenten på KTHs miniatyrsatellit, MIST. Experimentet utför test på bipolära transistorer av kisel och kiselkarbid. Detta examensarbete förklarar hur transistorns karakteristik kan mätas med analoga kretsar. Den framtagna kretsdesignen kommer att fungera som en prototyp till SiC in Space-experimentet. Prototypen mäter basströmmen, kollektorströmmen, bas-emitter-spänningen samt temperaturen för transistorn. Detta examensarbete förklarar hur en testkrets kan designas. Den valda designen byggs i inkrementella steg, där varje designval förklaras. Olika designer har utvecklats. Designerna har verifierats genom simuleringar. Vi har också konstruerat och testat tre olika prototyper på kopplingsdäck och kretskort. MIST CubeSat Silicon carbide Amplifiers PCB design Analog electronics Bipolar Junction Transistors Measurement circuit. MIST CubeSat Kiselkarbid Förstärkare Kretskortsdesign Analog elektronik Bipolära transistorer Mätkrets. Elektroteknik och elektronik
30	Study of Low-Temperature Effects in Silicon-Germanium Heterojunction Bipolar Transistor Technology Ahmed, Adnan 19 July 2005 (has links) This thesis investigates the effects of low temperatures on Silicon Germanium (SiGe) Hterojunction Bipolar Transistors (HBT) BiCMOS technology. A comprehensive set of dc measurements were taken on first, second, third and fourth generation IBM SiGe technology over a range of temperatures (room temperature to 43K for first generation, and room temperature to 15K for the rest). This work is unique in the sense that this sort of comprehensive study of dc characteristics on four SiGe HBT technology generations over a wide range of temperatures has never been done before to the best of the authors knowledge. Heterojunction HBT Low-temperature DC characteristics SiGe Silicon-germanium Technology generation Static characteristics Cryogenic Scaling Silicon alloys Effect of temperature on Germanium Effect of temperature on Heterojunctions Effect of temperature on Low temperature engineering

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