この専門講座について

100%オンラインコース

自分のスケジュールですぐに学習を始めてください。

フレキシブルなスケジュール

柔軟性のある期限の設定および維持

中級レベル

約12か月で修了

推奨6時間/週

英語

字幕:英語

習得するスキル

EnergyPower Electronics DesignPower ElectronicsElectronic Circuits

100%オンラインコース

自分のスケジュールですぐに学習を始めてください。

フレキシブルなスケジュール

柔軟性のある期限の設定および維持

中級レベル

約12か月で修了

推奨6時間/週

英語

字幕:英語

専門講座のしくみ

コースを受講しましょう。

Coursera(コーセラ)の専門講座は、一連のコース群であり、技術を身に付ける手助けとなります。開始するには、専門講座に直接登録するか、コースを確認して受講したいコースを選択してください。専門講座の一部であるコースにサブスクライブすると、自動的にすべての専門講座にサブスクライブされます。1つのコースを修了するだけでも結構です。いつでも、学習を一時停止したり、サブスクリプションを終了することができます。コースの登録状況や進捗を追跡するには、受講生のダッシュボードにアクセスしてください。

実践型プロジェクト

すべての専門講座には、実践型プロジェクトが含まれています。専門講座を完了して修了証を獲得するには、成功裏にプロジェクトを終了させる必要があります。専門講座に実践型プロジェクトに関する別のコースが含まれている場合、専門講座を開始するには、それら他のコースをそれぞれ終了させる必要があります。

修了証を取得

すべてのコースを終了し、実践型プロジェクトを完了すると、修了証を獲得します。この修了証は、今後採用企業やあなたの職業ネットワークと共有できます。

how it works

この専門講座には6コースあります。

コース1

Introduction to Power Electronics

4.8
1,465件の評価
356件のレビュー

This course introduces the basic concepts of switched-mode converter circuits for controlling and converting electrical power with high efficiency. Principles of converter circuit analysis are introduced, and are developed for finding the steady state voltages, current, and efficiency of power converters. Assignments include simulation of a dc-dc converter, analysis of an inverting dc-dc converter, and modeling and efficiency analysis of an electric vehicle system and of a USB power regulator. After completing this course, you will: ● Understand what a switched-mode converter is and its basic operating principles ● Be able to solve for the steady-state voltages and currents of step-down, step-up, inverting, and other power converters ● Know how to derive an averaged equivalent circuit model and solve for the converter efficiency A basic understanding of electrical circuit analysis is an assumed prerequisite for this course.

...
コース2

Converter Circuits

4.9
589件の評価
102件のレビュー

This course introduces more advanced concepts of switched-mode converter circuits. Realization of the power semiconductors in inverters or in converters having bidirectional power flow is explained. Power diodes, power MOSFETs, and IGBTs are explained, along with the origins of their switching times. Equivalent circuit models are refined to include the effects of switching loss. The discontinuous conduction mode is described and analyzed. A number of well-known converter circuit topologies are explored, including those with transformer isolation. The homework assignments include a boost converter and an H-bridge inverter used in a grid-interfaced solar inverter system, as well as transformer-isolated forward and flyback converters. After completing this course, you will: ● Understand how to implement the power semiconductor devices in a switching converter ● Understand the origins of the discontinuous conduction mode and be able to solve converters operating in DCM ● Understand the basic dc-dc converter and dc-ac inverter circuits ● Understand how to implement transformer isolation in a dc-dc converter, including the popular forward and flyback converter topologies. Completion of the first course Introduction to Power Electronics is the assumed prerequisite for this course.

...
コース3

Converter Control

4.8
364件の評価
72件のレビュー

This course teaches how to design a feedback system to control a switching converter. The equivalent circuit models derived in the previous courses are extended to model small-signal ac variations. These models are then solved, to find the important transfer functions of the converter and its regulator system. Finally, the feedback loop is modeled, analyzed, and designed to meet requirements such as output regulation, bandwidth and transient response, and rejection of disturbances. Upon completion of this course, you will be able to design and analyze the feedback systems of switching regulators. This course assumes prior completion of courses Introduction to Power Electronics and Converter Circuits.

...
コース4

Advanced Converter Control Techniques

4.8
263件の評価
46件のレビュー

This course covers advanced converter control techniques, including averaged-switch modeling and Spice simulations, modeling and design of peak current mode and average current mode controlled converters, as well as an introduction to control of single-phase ac grid tied rectifiers and inverters. Design and simulation examples include wide bandwidth point-of-load voltage regulators, low-harmonic power-factor-correction rectifiers, and grid-tied inverters for solar photovoltaic power systems. Upon completion of the course, you will be able to model, design control loops, and simulate state-of-the-art pulse-width modulated (PWM) dc-dc converters, dc-ac inverters, ac-dc rectifiers, and other power electronics systems. This course assumes prior completion of Introduction to Power Electronics, Converter Circuits, and Converter Control

...

講師

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Dr. Robert Erickson

Professor
Electrical, Computer, and Energy Engineering
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Dr. Dragan Maksimovic

Charles V. Schelke Endowed Professor
Electrical, Computer and Energy Engineering
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Dr. Khurram Afridi

Assistant Professor
Electrical, Computer and Energy Engineering

修士号の取得を目指しましょう

この 専門講座 は コロラド大学ボルダー校(University of Colorado Boulder) の100%オンラインの Master of Science in Electrical Engineering の一部です。 プログラムのすべてで認定されれば、それらのコースが学位学習に加算されます。

コロラド大学ボルダー校(University of Colorado Boulder)について

CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U.S. public institutions in the prestigious Association of American Universities (AAU), we have a proud tradition of academic excellence, with five Nobel laureates and more than 50 members of prestigious academic academies....

よくある質問

  • はい。まず始めに興味のあるコースカードをクリックして登録します。コースに登録して修了することによって、共有できる修了証を取得するか、無料でコースを聴講してコースの教材を確認することができます。専門講座の一部であるコースにサブスクライブすると、専門講座全体に自動的にサブスクライブされます。進捗を追跡するには、受講生のダッシュボードにアクセスしてください。

  • このコースは完全にオンラインで提供されているため、実際に教室に出席する必要はありません。Webまたはモバイル機器からいつでもどこからでも講義、学習用教材、課題にアクセスできます。

  • The specialization is designed to be taken over 24 weeks. Each course is 3-5 weeks in length.

  • The first course of the specialization, Introduction to Power Electronics, will begin every four weeks.

  • Knowledge of circuits and electrical engineering fundamentals at the level of an undergraduate EE major is assumed.

  • Generally yes. Each course builds upon the knowledge gained in the previous course.

  • At this time the University of Colorado Boulder is not offering university credit for this program. However, completion of this specialization would be a compelling resume item for application into any graduate program in Power Electronics, including at the University of Colorado Boulder College of Engineering & Applied Science.

  • Students completing this specialization will be able to:

    ●Analyze, model and simulate switched-mode power converters

    ● Design converters, including magnetic components, based on efficiency, power density and cost trade-off targets.

    ● Design high-performance voltage-mode and current-mode control loops

    ● Design a complete state-of-the-art power electronics system in a capstone project

  • This course will target three types of learners: Working engineers needing training in the specialization of power electronics, undergraduate and graduate students who wish to learn about power electronics, and other learners having curiosity about power electronics and its applications such as renewable energy, energy efficiency, and powering computer or mobile electronics.

  • Yes. If you completed Introduction to Power Electronics before January 2016, you’ll receive equivalent credit for the first three courses in this Specialization: Introduction to Power Electronics, Converter Circuits and Converter Control.

さらに質問がある場合は、受講者向けヘルプセンターにアクセスしてください。