電子制造工程專業(yè)英語

內(nèi)容概要

　　《高職高專電子制造專業(yè)規(guī)劃教材：電子制造工程專業(yè)英語》旨在使讀者掌握電子制造工程專業(yè)群的英語術(shù)語及用法，培養(yǎng)和提高讀者閱讀和翻譯專業(yè)英語文獻資料的能力，為今后獲取和交流專業(yè)技術(shù)信息打下良好的基礎(chǔ)。全書共18課，內(nèi)容包括電的本質(zhì)、電場、簡單電路、半導(dǎo)體材料、電化學(xué)基礎(chǔ)、光化學(xué)基礎(chǔ)、電子封裝、印制電路板成像、電鍍技術(shù)、柔性電路、柔性電路的檢測、顯示技術(shù)簡介、液晶顯示、等離子顯示、發(fā)光二極管、半導(dǎo)體器件及集成電路、半導(dǎo)體制造工藝、封裝及測試等。每課由課文、語法（或翻譯或應(yīng)用文）和擴展閱讀組成。本書還簡單介紹了翻譯知識，并配有適量的練習(xí)與擴展閱讀材料，供教師選用及學(xué)生自學(xué)用?！　　陡呗毟邔ｋ娮又圃鞂I(yè)規(guī)劃教材：電子制造工程專業(yè)英語》內(nèi)容新穎，圖文并茂，淺顯易學(xué)，可用作光電子技術(shù)、電子電路設(shè)計與工藝、微電子技術(shù)、光伏發(fā)電技術(shù)及應(yīng)用等專業(yè)的專業(yè)英語教材或教學(xué)參考書，也可供從事電子制造工程類專業(yè)的工程技術(shù)人員學(xué)習(xí)參考。

書籍目錄

Lesson OnePart I Intensive Reading： The Nature of ElectricityPart II Grammar： Parts of SpeechPart III Extensive Reading： Why do We Get a Shock from Electricity？Lesson TwoPart I Intensive Reading： Electric Field， Potential and VoltagePart ]] Grammar： Prefix and SuffixPart III Extensive Reading： Electric Field and Electric Field LinesLesson ThreePart I Intensive Reading： Simple Electric CircuitPart II Grammar： Word-FormationPart III Extensive Reading： DC Biasing——BJTsLesson FourPart I Intensive Reading： Semiconductor MaterialPart II Grammar： Word-activityPart III Extensive Reading： Growth of Semiconductor MaterialsLesson FivePart I Intensive Reading： Electrochemistry BasisPart II Grammar： Sentence BackbonesPart III Extensive Reading： The History of ElectrochemistryLesson SixPart I Intensive Reading： Photochemistry BasisPart II Grammar ： Sentence ElementsPart 1II Extensive Reading： Photolithography IntroductionLesson SevenPart I Intensive Reading： Electronic Package and High-density InterconnectivityPart II Grammar： Complex Sentence IPart III Extensive Reading： Electronic PackagingLesson EightPart I Intensive Reading： Printed Circuit Board ImagingPart II Grammar： Complex sentence IIPart III Extensive Reading： HannStar Board-GBM Consolidation to Create Largest PCB Maker in Taiwan ProvinceLesson NinePart I Intensive Reading ： Plated-Through-Hole（PTH） TechnologyPart II Translation Skills： Translation Standards and ProcessPart III Extensive Reading： The Disadvantages of Pattern PlatingLesson TenPart I Intensive Reading： Flexible CircuitsPart II Translation Skills： Conversion of Part of SpeechPart III Extensive Reading： Design of Flexible CircuitsLesson ElevenPart I Intensive Reading： Inspection and Test of Flexible CircuitsPart I1 Translation Skills： Translation of Complex Sentences in Scientific EnglishPart III Extensive Reading： Printed Electronics Make PCB “Green Up”Lesson TwelvePart I Intensive Reading： Introduction of Display TechnologyPart II Translation Skills： Amplification and DeletionPart II Extensive Reading： Flat Panel Buying TipsLesson ThirteenPart I Intensive Reading： Liquid Crystal DisplayPart II Practical Writing： ResumePart III Extensive Reading： High Luminance and Wide Color Gamut——for clear， vivid colorLesson FourteenPart I Intensive Reading： Plasma Display PanelPart II Practical Writing： Cover LetterPart III Extensive Reading： Full HD Plasma Pane！ Creates a True Full HD 3D WorldLesson FifteenPart I Intensive Reading： Light Emitting DiodesPart II Practical Writing： Reference LetterPart III Extensive Reading： Organic Light Emitting DiodesLesson SixteenPart I Intensive Reading： Semiconductor Devices and Integrated CircuitsPart II Practical Writing ： AdvertisementPart III Extensive Reading： How Solar Cells Work？Lesson SeventeenPart | Intensive Reading： Semiconductor Manufacturing ProcessesPart II Practical Writing： Self-IntroductionPart III Extensive Reading ： PhotolithographyLesson EighteenPart I Intensive Reading： Packaging and TestingPart I1 Practical Writing ： Work ReportPart III Extensive Reading： Chip Scale PackageReference

章節(jié)摘錄

　　Electricity shocks us， because it is an outside force that interferes with the internal electricity our bodies' nervous systems generate. To fully understand why the chance of encountering these two electrical forces results in a shock to our systems， we must first understand the fundamentals of electricity itself.　　In scientific terms， electricity is considered a fundamental force， one that is extremely basic， and has been in existence since the beginning of time. Further simplified， it is so basic， that it defies explanation， and is Mother Nature's way of saying “Because I said so ！”　　Electricity comprises positive and negative charges， opposite charges attract each other， and similar charges repel each other. Those charges attracted to each other can be separated， with the end pr　　duct being potential energy， that is， energy that will be released as voltage， should the two reunite. We pay electric companies to separate the positive and negative charges for us， so that we can have electrical energy at our disposal.　　In order for the charges to reunite， and for the potential energy to be released as voltage， a conductor， a channel that they can flow through， is needed. Insulators， such as paper and glass make poor conductors， while wire and water make excellent conductors. Unfortunately， since the human body consists primarily of water， it too provides a superb conductor for electrical energy， or voltage.　　If， by chance， outside electrical energy enters our bodies， now conductors， we will be shocked when the voltage encounters， and interferes with， the internal electrical energy our nervous systems produce. The shocks to our bodies， and the amount of damage the electricity does to them， depends on the voltage our bodies are subjected to， on its level of energy， and on how much our bodies resist the flow of the electrical energy.　　When we are shocked， a variety of things may occur， none of which is desirable. Our muscles may twitch， we may experience problems in the nerve centers that control our breathing， or we may experience problems with our heart rhythms. The worst case scenario from being shocked is death.　　……

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