EE 232 Lightwave Devices. Course Information (1)
|
|
|
- Peregrine Logan
- 5 years ago
- Views:
Transcription
1 EE 232 Lightwave Devices Lecture 1: Introduction Instructor: Ming C. Wu University of California, Berkeley Electrical Engineering and Computer Sciences Dept. EE232 Lecture 1-1 Course Information (1) Website Instructor: Prof. Ming Wu, 261M Cory, x30808, Lectures OH Tuesday and Thursday, 9:30 to 11: Cory Thursday 261M Cory Textbook S.L. Chuang, Physics of Optoelectronic Devices, John Wiley and Sons, 1995 EE232 Lecture 1-2
2 Course Information (2) Reference Books (on reserve at Engineering Library) Yariv & Yeh, Photonics: Optical Electronics in Modern Communications, Oxford University Press, 2006 Coldren & Corzine, Diode Lasers and Photonic Integrated Circuits, John Wiley & Sons, 1995 Saleh & Teich, Fundamentals of Photonics, 2nd Ed. Wiley, 2007 PREREQUISSITES EECS 130: Simple p-n junction, semiconductor physics, concept of energy bands, Fermi levels. PHYS 137A: recommended. Basic concept of quantum mechanics, perturbation theory EECS 117: recommended. Concept of dielectric waveguide, electromagnetic waves. EE232 Lecture 1-3 Course Information (3) EXAM & GRADES Homework 30% 2 Midterms 20% + 20% Final Exam 30% EE232 Lecture 1-4
3 Name 10 Optoelectronic Components You Used Everyday EE232 Lecture 1-5 Optoelectronics Market Forecast Source: OIDA EE232 Lecture 1-6
4 Optoelectronics Market Segment Flat panel displays Computers, television, mobile handheld devices High brightness LEDs Solid state lighting, large display panels, signs, automotive applications, LCD backlighting Imaging array sensors Digital cameras Diode lasers Optical storage, mice, data and tele-communications; ti Renewable energy Solar cells EE232 Lecture 1-7 OE Market Projection by Applications Source: OIDA EE232 Lecture 1-8
5 OE Products/Systems by Segment (2006) Source: OIDA EE232 Lecture 1-9 OE Market Projection by Technologies Source: OIDA EE232 Lecture 1-10
6 OE Component Revenue Forecast Source: OIDA EE232 Lecture 1-11 Typical Fiber Optic Links Digital Logic Levels (e.g., TTL, ECL) Laser Driver Current drive Optical Fiber Load Resistor Trans-impedance Amplifier (TIA) Decision Circuit Semiconductor Lasers Or LED s P-i-n photodiode Or Avalanche Photodetector (APD) Clock Recovery EE232 Lecture 1-12
7 Telecommunication Lasers Bulk Epi growth InP Regrowth MQW growth Source: Cyoptics EE232 Lecture 1-13 Telecommunication Networks EE232 Lecture 1-14
8 InGaN (405nm) for Optical Storage 0.78 for 1H digital Audio 4.7GB for SD MPEG2 135 min. 23GB for HD MPEG2 2 hours Source: Photonics Spectra, Jan LaserFocusWorld Marketplace Seminar EE232 Lecture 1-15 Packaged LEDs EE232 Lecture 1-16
9 Evolution of LED Materials/Performances EE232 Lecture 1-17 HB-LED Technology AlInGaN flip-chip (Lumiled) AlGaInP/GaP truncated inverted pyramid (Lumiled) AlInGaP micro mirror (Osram), AlInGaN patterned substrate and mesh electrode (Nichia) Source: LumiLeds EE232 Lecture 1-18
10 Common Uses for HBLEDs Traffic Signals (inc white) Source: th hti Source: Toshiba (Technorainbow) Outdoor lighting scenarios Source: Wustlich Design AG Furniture Lighting Architectural lighting EE232 Lecture 1-19 High Brightness LED Market EE232 Lecture 1-20
11 Backlit LCD Displays Pocket PC Phone Tablet PC Pocket PC Smart Phone SPOT Watch (Smart Personal Object Technology) Digital camera EE232 Lecture 1-21 Flat Panel Display - LCD EE232 Lecture 1-22
from the Photonics Dictionary at Photonics.com
Photonics term in listing The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection,
Lecture 1: Course Overview. Rajeev J. Ram
Lecture 1: Course Overview Rajeev J. Ram Office: 36-491 Telephone: X3-4182 Email: rajeev@mit.edu Syllabus Basic concepts Advanced concepts Background: p-n junctions Photodetectors Modulators Optical amplifiers
PHYSICAL ELECTRONICS(ECE3540) APPLICATIONS OF PHYSICAL ELECTRONICS PART I
PHYSICAL ELECTRONICS(ECE3540) APPLICATIONS OF PHYSICAL ELECTRONICS PART I Tennessee Technological University Monday, October 28, 2013 1 Introduction In the following slides, we will discuss the summary
Functional Materials. Optoelectronic devices
Functional Materials Lecture 2: Optoelectronic materials and devices (inorganic). Photonic materials Optoelectronic devices Light-emitting diode (LED) displays Photodiode and Solar cell Photoconductive
DEPARTMENT OF PHYSICS PHYS*2040 W'09. Fundamental Electronics and Sensors. Lecturer: Dr. Ralf Gellert MacN 450 Ext
DEPARTMENT OF PHYSICS PHYS*2040 W'09 Fundamental Electronics and Sensors Lecturer: Dr. Ralf Gellert MacN 450 Ext. 53992 ralf@physics.uoguelph.ca Lab Instructor: Andrew Tersigni MacN 023 Ext. 58342 andrew@physics.uoguelph.ca
Winter 2017 Special Topics
Winter 2017 Special Topics CRN Title Units Instructor Days/Time 22245 289K Terahertz and mm-wave Integrated Circuit Design 4 Momeni TR 4:40-6:00pm 45108 289L - Wide bandgap Semiconductor Devices (WBG-Devices)
EE C245 ME C218 Introduction to MEMS Design
EE C245 ME C218 Introduction to MEMS Design Fall 2008 Prof. Clark T.-C. Nguyen Dept. of Electrical Engineering & Computer Sciences University of California at Berkeley Berkeley, CA 94720 Lecture 1: Definition
inemi OPTOELECTRONICS ROADMAP FOR 2004 Dr. Laura J. Turbini University of Toronto SMTA International September 26, 2005
inemi OPTOELECTRONICS ROADMAP FOR 2004 0 Dr. Laura J. Turbini University of Toronto SMTA International September 26, 2005 Outline Business Overview Traditional vs Jisso Packaging Levels Optoelectronics
Optical Fibers p. 1 Basic Concepts p. 1 Step-Index Fibers p. 2 Graded-Index Fibers p. 4 Design and Fabrication p. 6 Silica Fibers p.
Preface p. xiii Optical Fibers p. 1 Basic Concepts p. 1 Step-Index Fibers p. 2 Graded-Index Fibers p. 4 Design and Fabrication p. 6 Silica Fibers p. 6 Plastic Optical Fibers p. 9 Microstructure Optical
EE Analog and Non-linear Integrated Circuit Design
University of Southern California Viterbi School of Engineering Ming Hsieh Department of Electrical Engineering EE 479 - Analog and Non-linear Integrated Circuit Design Instructor: Ali Zadeh Email: prof.zadeh@yahoo.com
EE C245 ME C218 Introduction to MEMS Design Fall 2010
Instructor: Prof. Clark T.-C. Nguyen EE C245 ME C218 Introduction to MEMS Design Fall 2010 Prof. Clark T.-C. Nguyen Dept. of Electrical Engineering & Computer Sciences University of California at Berkeley
Large spontaneous emission rate enhancement in a III-V antenna-led
Large spontaneous emission rate enhancement in a III-V antenna-led Seth A. Fortuna 1, Christopher Heidelberger 2, Nicolas M. Andrade 1, Eugene A. Fitzgerald 2, Eli Yablonovitch 1, and Ming C. Wu 1 1 University
Electronic Devices and Circuits Lecture 10 - Junction Device Wrap-up - Outline Announcements IES
6.012 - Electronic Devices and Circuits Lecture 10 - Junction Device Wrap-up - Outline Announcements Handout - Lecture Outline and Summary First Hour Exam - Tomorrow!! Rm. 34-101, 7:30-9:30 pm Recitations
Electrical Engineering 40 Introduction to Microelectronic Circuits
Electrical Engineering 40 Introduction to Microelectronic Circuits Instructor: Prof. Andy Neureuther EECS Department University of California, Berkeley Lecture 1, Slide 1 Introduction Instructor: Prof.
Physics of Waveguide Photodetectors with Integrated Amplification
Physics of Waveguide Photodetectors with Integrated Amplification J. Piprek, D. Lasaosa, D. Pasquariello, and J. E. Bowers Electrical and Computer Engineering Department University of California, Santa
Optical Communication Engineering (4041) B.Eng.
Optical Communication Engineering (4041) B.Eng. School of Electrical and Electronic Engineering The University of Adelaide, Australia Dr Bernd Fischer The Dream & The Reality Leadership is the ability
Introduction to Electronic Devices
(Course Number 300331 ) Fall 2006 Dr. Dietmar Knipp Assistant Professor of Electrical Engineering Information: http://www.faculty.iubremen.de/dknipp/ Source: Apple Ref.: Apple Ref.: IBM Critical 10-8 10-7
Masters of Engineering in Electrical Engineering Course Syllabi ( ) City University of New York--College of Staten Island
City University of New York--College of Staten Island Masters of Engineering in Electrical Engineering Course Syllabi (2017-2018) Required Core Courses ELE 600/ MTH 6XX Probability Theory and Stochastic
Lahore University of Management Sciences. EE 340 Devices and Electronics. Fall Dr. Tehseen Zahra Raza. Instructor
EE 340 Devices and Electronics Fall 2014-15 Instructor Dr. Tehseen Zahra Raza Room No. SSE L-301 Office Hours TBA Email tehseen.raza@lums.edu.pk Telephone 3522 Secretary/TA TBA TA Office Hours TBA Course
Performance and Characteristics of Silicon Avalanche Photodetectors in
Performance and Characteristics of Silicon Avalanche Photodetectors in the C5 Process Paper Authors: Dennis Montierth 1, Timothy Strand 2, James Leatham 2, Lloyd Linder 3, and R. Jacob Baker 1 1 Dept.
ET475 Electronic Circuit Design I [Onsite]
![ET475 Electronic Circuit Design I [Onsite]](/thumbs/89/98281525.jpg "ET475 Electronic Circuit Design I [Onsite]")
ET475 Electronic Circuit Design I [Onsite] Course Description: This course covers the analysis and design of electronic circuits, and includes a laboratory that utilizes computer-aided software tools for
Optical Receivers Theory and Operation
Optical Receivers Theory and Operation Photo Detectors Optical receivers convert optical signal (light) to electrical signal (current/voltage) Hence referred O/E Converter Photodetector is the fundamental
Introduction to Optoelectronic Devices
Introduction to Optoelectronic Devices Dr. Jing Bai Assistant Professor Department of Electrical and Computer Engineering University of Minnesota Duluth October 30th, 2012 1 Outline What is the optoelectronics?
ECEN474/704: (Analog) VLSI Circuit Design Fall 2016
ECEN474/704: (Analog) VLSI Circuit Design Fall 2016 Lecture 1: Introduction Sam Palermo Analog & Mixed-Signal Center Texas A&M University Announcements Turn in your 0.18um NDA form by Thursday Sep 1 No
EE C245 ME C218 Introduction to MEMS Design Fall 2007
EE C245 ME C218 Introduction to MEMS Design Fall 2007 Prof. Clark T.-C. Nguyen Dept. of Electrical Engineering & Computer Sciences University of California at Berkeley Berkeley, CA 94720 Lecture 1: Definition
Unit 2 Semiconductor Devices. Lecture_2.5 Opto-Electronic Devices
Unit 2 Semiconductor Devices Lecture_2.5 Opto-Electronic Devices Opto-electronics Opto-electronics is the study and application of electronic devices that interact with light. Electronics (electrons) Optics
A Fully Integrated 20 Gb/s Optoelectronic Transceiver Implemented in a Standard
A Fully Integrated 20 Gb/s Optoelectronic Transceiver Implemented in a Standard 0.13 µm CMOS SOI Technology School of Electrical and Electronic Engineering Yonsei University 이슬아 1. Introduction 2. Architecture
Fiber-Optic Communication Systems
Fiber-Optic Communication Systems Second Edition GOVIND P. AGRAWAL The Institute of Optics University of Rochester Rochester, NY A WILEY-iNTERSCIENCE PUBLICATION JOHN WILEY & SONS, INC. NEW YORK / CHICHESTER
The Past, Present, and Future of Silicon Photonics
The Past, Present, and Future of Silicon Photonics Myung-Jae Lee High-Speed Circuits & Systems Lab. Dept. of Electrical and Electronic Engineering Yonsei University Outline Introduction A glance at history
EE 392B: Course Introduction
EE 392B Course Introduction About EE392B Goals Topics Schedule Prerequisites Course Overview Digital Imaging System Image Sensor Architectures Nonidealities and Performance Measures Color Imaging Recent
Examination Optoelectronic Communication Technology. April 11, Name: Student ID number: OCT1 1: OCT 2: OCT 3: OCT 4: Total: Grade:
Examination Optoelectronic Communication Technology April, 26 Name: Student ID number: OCT : OCT 2: OCT 3: OCT 4: Total: Grade: Declaration of Consent I hereby agree to have my exam results published on
Optical Fiber Communication Lecture 11 Detectors
Optical Fiber Communication Lecture 11 Detectors Warriors of the Net Detector Technologies MSM (Metal Semiconductor Metal) PIN Layer Structure Semiinsulating GaAs Contact InGaAsP p 5x10 18 Absorption InGaAs
The Optics Revolution
The Optics Revolution 1960 The beginning of the 20 th century optics renaissance... 1998 Dawn of the optics revolution... Source: Han Le & Assoc Photonics Component Development Detector Source Circuit,
Innovative ultra-broadband ubiquitous Wireless communications through terahertz transceivers ibrow
Project Overview Innovative ultra-broadband ubiquitous Wireless communications through terahertz transceivers ibrow Mar-2017 Presentation outline Project key facts Motivation Project objectives Project
Lecture: Integration of silicon photonics with electronics. Prepared by Jean-Marc FEDELI CEA-LETI
Lecture: Integration of silicon photonics with electronics Prepared by Jean-Marc FEDELI CEA-LETI Context The goal is to give optical functionalities to electronics integrated circuit (EIC) The objectives
New Focus High Speed Photoreceivers
New Focus High Speed 1 About New Focus Products Newport s New Focus products are among our most innovative, high-performance, high-quality, and easy-to-use photonics tools and equipment. They include exceptional
Figure Responsivity (A/W) Figure E E-09.
OSI Optoelectronics, is a leading manufacturer of fiber optic components for communication systems. The products offer range for Silicon, GaAs and InGaAs to full turnkey solutions. Photodiodes are semiconductor
Ultra-sensitive SiGe Bipolar Phototransistors for Optical Interconnects
Ultra-sensitive SiGe Bipolar Phototransistors for Optical Interconnects Michael Roe Electrical Engineering and Computer Sciences University of California at Berkeley Technical Report No. UCB/EECS-2012-123
Research on Optical Access Network. Assoc. Prof. Dr. Duang-rudee Worasucheep Electrical Engineering Department Chulalongkorn University
Research on Optical Access Network Assoc. Prof. Dr. Duang-rudee Worasucheep Electrical Engineering Department Chulalongkorn University 1 History Faculty of Engineering was founded in 1913, First engineering
Lecture 12 Building Components
Optical Fibres and Telecommunications Lecture 12 Building Components Introduction Where are we? Turning individual elements into components Transmitters Receivers Modulation formats Repeaters and 3-R Regeneration
Wireless Music Player Design Based on White LED Visible Light Communication Shu-min ZHANG, Chun-xian XIAO, Chen-qiao XUE and Jin-ming LU
2017 2nd International Conference on Electrical and Electronics: Techniques and Applications (EETA 2017) ISBN: 978-1-60595-416-5 Wireless Music Player Design Based on White LED Visible Light Communication
Optoelectronic Components Testing with a VNA(Vector Network Analyzer) VNA Roadshow Budapest 17/05/2016
Optoelectronic Components Testing with a VNA(Vector Network Analyzer) VNA Roadshow Budapest 17/05/2016 Content Introduction Photonics & Optoelectronics components Optical Measurements VNA (Vector Network
RECENTLY, using near-field scanning optical
1 2 1 2 Theoretical and Experimental Study of Near-Field Beam Properties of High Power Laser Diodes W. D. Herzog, G. Ulu, B. B. Goldberg, and G. H. Vander Rhodes, M. S. Ünlü L. Brovelli, C. Harder Abstract
Figure Figure E E-09. Dark Current (A) 1.
OSI Optoelectronics, is a leading manufacturer of fiber optic components for communication systems. The products offer range for Silicon, GaAs and InGaAs to full turnkey solutions. Photodiodes are semiconductor
Electrical Engineering Program. Alfaisal University, College of Engineering
Electrical Engineering Program Alfaisal University, College of Engineering Revised: May 29, 2016 Curriculum Structure and Study Plan The Electrical Engineering curriculum is composed of 139 Credit Hours
Lecture 4 -- Tuesday, Sept. 19: Non-uniform injection and/or doping. Diffusion. Continuity/conservation. The five basic equations.
6.012 ELECTRONIC DEVICES AND CIRCUITS Schedule -- Fall 1995 (8/31/95 version) Recitation 1 -- Wednesday, Sept. 6: Review of 6.002 models for BJT. Discussion of models and modeling; motivate need to go
Avalanche Photodiode. Instructor: Prof. Dietmar Knipp Presentation by Peter Egyinam. 4/19/2005 Photonics and Optical communicaton
Avalanche Photodiode Instructor: Prof. Dietmar Knipp Presentation by Peter Egyinam 1 Outline Background of Photodiodes General Purpose of Photodiodes Basic operation of p-n, p-i-n and avalanche photodiodes
Mode analysis of Oxide-Confined VCSELs using near-far field approaches
Annual report 998, Dept. of Optoelectronics, University of Ulm Mode analysis of Oxide-Confined VCSELs using near-far field approaches Safwat William Zaki Mahmoud We analyze the transverse mode structure
Time Table International SoC Design Conference
04 International SoC Design Conference Time Table A Analog and Mixed-Signal Techniques I DV Digital Circuits and VLSI Architectures ET Emerging technology LP Power Electronics / Energy Harvesting Circuits
Envisioning the Future of Optoelectronic Interconnects:
Envisioning the Future of Optoelectronic Interconnects: The Production Economics of InP and Si Platforms for 100G Ethernet LAN Transceivers Shan Liu Dr. Erica Fuchs Prof. Randolph Kirchain MIT Microphotonics
BME 3512 Bioelectronics Reading Assignments and Homework Problems Spring 2015
The BME 3512 Bioelectronics course is partitioned into essentially seven areas, divided into four tests: Test One - Principles of DC and AC Circuits Review of Basic Concepts and Principles of DC and AC
EECS150 - Digital Design Lecture 28 Course Wrap Up. Recap 1
EECS150 - Digital Design Lecture 28 Course Wrap Up Dec. 5, 2013 Prof. Ronald Fearing Electrical Engineering and Computer Sciences University of California, Berkeley (slides courtesy of Prof. John Wawrzynek)
Lecture 9 External Modulators and Detectors
Optical Fibres and Telecommunications Lecture 9 External Modulators and Detectors Introduction Where are we? A look at some real laser diodes. External modulators Mach-Zender Electro-absorption modulators
EIO - Electronic Instrumentation and Optoelectronics
Coordinating unit: Teaching unit: Academic year: Degree: ECTS credits: 2017 230 - ETSETB - Barcelona School of Telecommunications Engineering 710 - EEL - Department of Electronic Engineering MASTER'S DEGREE
ECEN474: (Analog) VLSI Circuit Design Fall 2011
ECEN474: (Analog) VLSI Circuit Design Fall 2011 Lecture 1: Introduction Sebastian Hoyos Analog & Mixed-Signal Center Texas A&M University Analog Circuit Sequence 326 2 Why is Analog Important? [Silva]
Introduction to Electronic Devices
(Course Number 300331) Fall 2006 Instructor: Dr. Dietmar Knipp Assistant Professor of Electrical Engineering Information: http://www.faculty.iubremen.de/dknipp/ Source: Apple Ref.: Apple Ref.: IBM Critical
visit website regularly for updates and announcements
ESE 372: Electronics Spring 2013 Web site: www.ece.sunysb.edu/~oe/leon.html visit website regularly for updates and announcements Prerequisite: ESE 271 Corequisites: ESE 211 Text Books: A.S. Sedra, K.C.
ECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 2016
ECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 2016 Lecture 10: Electroabsorption Modulator Transmitters Sam Palermo Analog & Mixed-Signal Center Texas A&M University Announcements
Photodiode: LECTURE-5
LECTURE-5 Photodiode: Photodiode consists of an intrinsic semiconductor sandwiched between two heavily doped p-type and n-type semiconductors as shown in Fig. 3.2.2. Sufficient reverse voltage is applied
Lecture Wrap up. December 13, 2005
6.012 Microelectronic Devices and Circuits Fall 2005 Lecture 26 1 Lecture 26 6.012 Wrap up December 13, 2005 Contents: 1. 6.012 wrap up Announcements: Final exam TA review session: December 16, 7:30 9:30
Choosing and Using Photo Sensors
Part II Choosing and Using Photo Sensors Selection of the right photo sensor is the first step towards designing an optimal sensor-based system. The second step, and indeed a very important one, is the
EE105 Fall 2015 Microelectronic Devices and Circuits. Invention of Transistors
EE105 Fall 2015 Microelectronic Devices and Circuits Prof. Ming C. Wu wu@eecs.berkeley.edu 511 Sutardja Dai Hall (SDH) 1-1 Invention of Transistors - 1947 Bardeen, Shockley, and Brattain at Bell Labs Invented
Integration of Optoelectronic and RF Devices for Applications in Optical Interconnect and Wireless Communication
Integration of Optoelectronic and RF Devices for Applications in Optical Interconnect and Wireless Communication Zhaoran (Rena) Huang Assistant Professor Department of Electrical, Computer and System Engineering
Optimization of Integrated Electro-Absorption Modulated Laser Structures for 100 Gbit/s Ethernet Using Electromagnetic Simulation
Optimization of Integrated Electro-Absorption Modulated Laser Structures for 1 bit/s Ethernet Using Electromagnetic Simulation Tom Johansen, Christophe Kazmierski, Christophe Jany, Chenhui Jiang, and Viktor
White Paper Laser Sources For Optical Transceivers. Giacomo Losio ProLabs Head of Technology
White Paper Laser Sources For Optical Transceivers Giacomo Losio ProLabs Head of Technology September 2014 Laser Sources For Optical Transceivers Optical transceivers use different semiconductor laser
Lecture 18: Photodetectors
Lecture 18: Photodetectors Contents 1 Introduction 1 2 Photodetector principle 2 3 Photoconductor 4 4 Photodiodes 6 4.1 Heterojunction photodiode.................... 8 4.2 Metal-semiconductor photodiode................
CRN: MET-487 Instrumentation and Automatic Control June 28, 2010 August 5, 2010 Professor Paul Lin
CRN: 32030 MET-487 Instrumentation and Automatic Control June 28, 2010 August 5, 2010 Professor Paul Lin Course Description: Class 2, Lab 2, Cr. 3, Junior class standing and 216 Instrumentation for pressure,
TC - Wire and Optical Transmission
Coordinating unit: Teaching unit: Academic year: Degree: ECTS credits: 2016 230 - ETSETB - Barcelona School of Telecommunications Engineering 739 - TSC - Department of Signal Theory and Communications
Chapter Photonic Bioelectric Signal Sensor. 3.1 Photonic Sensor Theory
3. Photonic Bioelectric Signal Sensor This chapter addresses the whole photonic bioelectric signal sensor modeling and design, including optical and electrical component selection. The ultimate goal is
Optoelectronics EE/OPE 451, OPT 444 Fall 2009 Section 1: T/Th 9:30-10:55 PM
Optoelectronics EE/OPE 451, OPT 444 Fall 009 Section 1: T/Th 9:30-10:55 PM John D. Williams, Ph.D. Department of Electrical and Computer Engineering 406 Optics Building - UAHuntsville, Huntsville, AL 35899
Light source approach for silicon photonics transceivers September Fiber to the Chip
Light source approach for silicon photonics transceivers September 2014 Fiber to the Chip Silicon Photonics Silicon Photonics Technology: Silicon material system & processing techniques to manufacture
(B) The simplest way to measure the light intensity is using a photodiode in the photoconductive mode:
PHY226 Electronics Final Preparation 1. Optoelectronics: LEDs and photodiodes (A) LEDs and photodiodes are essentially semi conductor diodes which can interact with electromagnetic waves. Explain why in
STATE UNIVERSITY OF NEW YORK COLLEGE OF TECHNOLOGY CANTON, NEW YORK COURSE OUTLINE ELEC 255 ELECTRONIC SYSTEMS FOR TELECOMMUNICATIONS II
STATE UNIVERSITY OF NEW YORK COLLEGE OF TECHNOLOGY CANTON, NEW YORK COURSE OUTLINE ELEC 255 ELECTRONIC SYSTEMS FOR TELECOMMUNICATIONS II Prepared By: Stacia Dutton CANINO SCHOOL OF ENGINEERING TECHNOLOGY
Compact Low-power-consumption Optical Modulator
Compact Low-power-consumption Modulator Eiichi Yamada, Ken Tsuzuki, Nobuhiro Kikuchi, and Hiroshi Yasaka Abstract modulators are indispensable devices for optical fiber communications. They turn light
OPTI510R: Photonics. Khanh Kieu College of Optical Sciences, University of Arizona Meinel building R.626
OPTI510R: Photonics Khanh Kieu College of Optical Sciences, University of Arizona kkieu@optics.arizona.edu Meinel building R.626 Announcements Homework #2 is due Feb. 12 Mid-term exam will be on Feb. 28
Electronic-Photonic ICs for Low Cost and Scalable Datacenter Solutions
Electronic-Photonic ICs for Low Cost and Scalable Datacenter Solutions Christoph Theiss, Director Packaging Christoph.Theiss@sicoya.com 1 SEMICON Europe 2016, October 27 2016 Sicoya Overview Spin-off from
Integrated Circuit Technology (Course Code: EE662) Lecture 1: Introduction
Indian Institute of Technology Jodhpur, Year 2015 2016 Integrated Circuit Technology (Course Code: EE662) Lecture 1: Introduction Course Instructor: Shree Prakash Tiwari, Ph.D. Email: sptiwari@iitj.ac.in
Lecture 1, Introduction and Background
EE 338L CMOS Analog Integrated Circuit Design Lecture 1, Introduction and Background With the advances of VLSI (very large scale integration) technology, digital signal processing is proliferating and
Faster than a Speeding Bullet
BEYOND DESIGN Faster than a Speeding Bullet by Barry Olney IN-CIRCUIT DESIGN PTY LTD AUSTRALIA In a previous Beyond Design column, Transmission Lines, I mentioned that a transmission line does not carry
Energy & Space. International Presentations
Energy & Space International Presentations 2012-2013 Advanced Electronics 3D Printed Circuit Boards 3D Printed Circuit Boards for Solder-Free Printable Electronics 4x4 Vehicles Arduino WiFi Android Controllers
Global Environmental MEMS Sensors (GEMS): Revolutionary Observing Technology for the 21st Century
Global Environmental MEMS Sensors (GEMS): Revolutionary Observing Technology for the 21st Century NIAC Phase I CP-01-02 John Manobianco, Randolph J. Evans, Jonathan L. Case, David A. Short ENSCO, Inc.
Measuring Photonic, Optoelectronic and Electro optic S parameters using an advanced photonic module
Measuring Photonic, Optoelectronic and Electro optic S parameters using an advanced photonic module APPLICATION NOTE This application note describes the procedure for electro-optic measurements of both
Selectively-undercut traveling-wave electroabsorption modulators incorporating a p-ingaas contact layer
Selectively-undercut traveling-wave electroabsorption modulators incorporating a p-ingaas contact layer Matthew M. Dummer, James R. Raring, Jonathan Klamkin, Anna Tauke-Pedretti, and Larry A. Coldren University
Opto-electronic Receivers
Purpose of a Receiver The receiver fulfils the function of optoelectronic conversion of an input optical signal into an output electrical signal (data stream). The purpose is to recover the data transmitted
Charge-integrating organic heterojunction
In the format provided by the authors and unedited. DOI: 10.1038/NPHOTON.2017.15 Charge-integrating organic heterojunction Wide phototransistors dynamic range for organic wide-dynamic-range heterojunction
EECS 270 Schedule and Syllabus for Fall 2011 Designed by Prof. Pinaki Mazumder
EECS 270 Schedule and Syllabus for Fall 2011 Designed by Prof. Pinaki Mazumder Week Day Date Lec No. Lecture Topic Textbook Sec Course-pack HW (Due Date) Lab (Start Date) 1 W 7-Sep 1 Course Overview, Number
ECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 2016
ECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 2016 Lecture 1: Introduction Sam Palermo Analog & Mixed-Signal Center Texas A&M University Class Topics System and design issues
P-N Diodes & Applications
P-N Diodes & Applications Outline Major junction diode applications are Electronics circuit control Rectifying (forward mode) Special break-down diodes: Zener and avalanche Switching Circuit tuning (varactor)
Light Sources, Modulation, Transmitters and Receivers
Optical Fibres and Telecommunications Light Sources, Modulation, Transmitters and Receivers Introduction Previous section looked at Fibres. How is light generated in the first place? How is light modulated?
Spectrometer using a tunable diode laser
Spectrometer using a tunable diode laser Ricardo Vasquez Department of Physics, Purdue University, West Lafayette, IN April, 2000 In the following paper the construction of a simple spectrometer using
Optical Communication and Networks M.N. Bandyopadhyay
Optical Communication and Networks M.N. Bandyopadhyay Director National Institute of Technology (NIT) Calicut Delhi-110092 2014 OPTICAL COMMUNICATION AND NETWORKS M.N. Bandyopadhyay 2014 by PHI Learning
System demonstrator for board-to-board level substrate-guided wave optoelectronic interconnections
Header for SPIE use System demonstrator for board-to-board level substrate-guided wave optoelectronic interconnections Xuliang Han, Gicherl Kim, Hitesh Gupta, G. Jack Lipovski, and Ray T. Chen Microelectronic
Modern Power Electronics Courses at UCF
Modern Power Electronics Courses at UCF Issa Batarseh, John Shen, and Sam Abdel-Rahman School of Electrical Engineering and Computer Science University of Central Florida Orlando, Florida, USA University
OPTICAL GUIDED WAVES AND DEVICES
OPTICAL GUIDED WAVES AND DEVICES Richard Syms John Cozens Department of Electrical and Electronic Engineering Imperial College of Science, Technology and Medicine McGRAW-HILL BOOK COMPANY London New York
LAB V. LIGHT EMITTING DIODES
LAB V. LIGHT EMITTING DIODES 1. OBJECTIVE In this lab you will measure the I-V characteristics of Infrared (IR), Red and Blue light emitting diodes (LEDs). Using a photodetector, the emission intensity
Degradation analysis in asymmetric sampled grating distributed feedback laser diodes
Microelectronics Journal 8 (7) 74 74 www.elsevier.com/locate/mejo Degradation analysis in asymmetric sampled grating distributed feedback laser diodes Han Sung Joo, Sang-Wan Ryu, Jeha Kim, Ilgu Yun Semiconductor
Fundamentals of CMOS Image Sensors
CHAPTER 2 Fundamentals of CMOS Image Sensors Mixed-Signal IC Design for Image Sensor 2-1 Outline Photoelectric Effect Photodetectors CMOS Image Sensor(CIS) Array Architecture CIS Peripherals Design Considerations
EE119 Introduction to Optical Engineering Spring 2003 Final Exam. Name:
EE119 Introduction to Optical Engineering Spring 2003 Final Exam Name: SID: CLOSED BOOK. THREE 8 1/2 X 11 SHEETS OF NOTES, AND SCIENTIFIC POCKET CALCULATOR PERMITTED. TIME ALLOTTED: 180 MINUTES Fundamental
(Note: recitation time may be changed if students agree on an alternate time.) Office: Room 209 CREOL Building,
Course Syllabus OSE 3052 Introduction to Photonics, Spring 2014 M, W 3:00 4:15 pm, CREO A214 Instructor: Dr. David Hagan Recitation section Friday, 10:00 10:50 am, CREO A214 Recitation Instructor: Dr.
Optoelectronics ELEC-E3210
Optoelectronics ELEC-E3210 Lecture 4 Spring 2016 Outline 1 Lateral confinement: index and gain guiding 2 Surface emitting lasers 3 DFB, DBR, and C3 lasers 4 Quantum well lasers 5 Mode locking P. Bhattacharya: