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NEPSeminarSeriesDashiell
Course: ELEG 661, Fall 2008School: Delaware
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& Electrical Computer Engineering ECE Lecturer Series Wednesday, November 15, 2006 11:15 a.m.-12:15 p.m. 114 Spencer Lab, University of Delaware Michael Dashiell Knolls Atomic Power Lab, NY High Efficiency Thermophotovoltaics" Abstract: This talk summarizes the technology key developments leading to thermophotovoltaic (TPV) energy conversion efficiencies in excess of 20% and power densities...
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& Electrical Computer Engineering
ECE Lecturer Series
Wednesday, November 15, 2006 11:15 a.m.-12:15 p.m. 114 Spencer Lab, University of Delaware
Michael Dashiell
Knolls Atomic Power Lab, NY
High Efficiency Thermophotovoltaics"
Abstract: This talk summarizes the technology key developments leading to thermophotovoltaic (TPV) energy conversion efficiencies in excess
of 20% and power densities exceeding 0.5Watts/cm2. Speci...
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Delaware - ELEG - 661
University of Delaware Electrical & Computer Engineering Department Fall 2006 Seminars Nanoelectronics, Electromagnetics and Photonics Group Weds 11AM-12PM, 114 Spencer HallTentative ScheduleSeptember 6: Jacob Khurgin, Johns Hopkins U., "Devices B
Delaware - ELEG - 661
University of Delaware Electrical & Computer Engineering Department Fall 2006 Seminars Nanoelectronics, Electromagnetics and Photonics Group Weds 11:15 AM, 114 Spencer HallSeptember 6: Jacob Khurgin, Johns Hopkins U., Devices Based on Slow Light, h
Delaware - ELEG - 661
University of Delaware Electrical & Computer Engineering Department Fall 2006 Seminars Nanoelectronics, Electromagnetics and Photonics Group Weds 11:15 AM, 114 Spencer HallSeptember 6: Jacob Khurgin, Johns Hopkins U., Devices Based on Slow Light, h
Delaware - ELEG - 661
University of Delaware Electrical & Computer Engineering Department Fall 2006 Seminars Nanoelectronics, Electromagnetics and Photonics Group Weds 11:15 AM, 114 Spencer HallSeptember 6: Jacob Khurgin, Johns Hopkins U., "Devices Based on Slow Light,"
Delaware - ELEG - 661
University of Delaware Electrical & Computer Engineering Department Fall 2006 Seminars Nanoelectronics, Electromagnetics and Photonics Group Weds 11:15 AM, 114 Spencer HallSeptember 6: Jacob Khurgin, Johns Hopkins U., "Devices Based on Slow Light,"
Delaware - ELEG - 650
ELEG 450/650 Week Date 1 2/4Spring 2002 Lecture Handouts Course overview Lab SafetySchedule (rough draft 6 February 2002) Laboratory L-Edit PracticeJ. Kolodzey Assignment Read Safety Manual Read Lab Guidelines. Read Jaeger pp. 1-14 nMOS Transis
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #3 - due Tuesday, 6 March 2007, in class 1. Problem 1.14 in chapter 1, p. 46 of Muller, Kamins & Chan (3rd edition). 2. Problem 1.15 in chapter 1, p. 46 of Muller, Kamins & C
Delaware - ELEG - 621
ELEG 621 Solid State Electronics II Homework #7 - due Wednesday, 30 October 2002 1. Problem 1, chapter 3, p. 83 of R.F. Pierret.Homework assignments will appear on the web at: http:/www.ece.udel.edu/~kolodzey/courses/ELEG621F02.htm Note: On each ho
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2009 Homework #7 - due Friday, 9 April 2009, in class1. A Si diode forward biased at a fixed current is being used as a thermometer. The diode voltage is 0.62 V at 300K. (a) How much wil
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2009 Homework #12 - due Tuesday, 19 May 2009, in class.1. An n-type silicon sample has a uniform donor concentration ND = 5 x 1015cm-3. Calculate the surface potential required (a) to ma
Delaware - ELEG - 646
DIFFUSION Diffusion generate currentsOF CARRIERS in semiconductor devices whichare presenta spatially non-uniform distribution of carriers. and the bipolarThemost important examples are the p-n junctiontransistor,whose functions are based
Delaware - ELEG - 340
ELEG 340: Solid-State Electronics, Fall 2008Homework #9 - due Tuesday, 18 November 2008, at the beginning of class 1. Problem 7.7, p. 392 of Streetman-Banerjee, 6th edition. Hint: use the Ebers-Moll equations in form of Eqn. (7-34) and used the dis
Delaware - ELEG - 340
ELEG 340: Solid-State Electronics, Fall 2008Homework #9 - due Tuesday, 18 November 2008, at the beginning of class 1. Problem 7.7, p. 392 of Streetman-Banerjee, 6th edition. Hint: use the Ebers-Moll equations in form of Eqn. (7-34) and used the dis
Delaware - ELEG - 340
ELEG 340: Solid-State Electronics, Fall 2008Homework #10 (rev)- due Tuesday, 25 November 2008, at the beginning of class 1. Problem 6.1, p. 326 of Streetman-Banerjee, 6th edition. Hint: recall that our lecture definition of pinch-off voltage, VP, i
Delaware - ELEG - 340
Delaware - ELEG - 340
Delaware - ELEG - 340
/ELEG 340 - Fall 08 Solid-State Electronics Quiz 6 4 December 2008NAMETime Limit: 30 minutes Closed Books and Notes. You may use your own calculator, but may not loan or borrow one (ask proctor if you have questions). Put each expression in a fi
Delaware - ELEG - 646
ELEG 646, ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #1 - due Thursday, 17 February 2005, in class solution: 1.2.3.4.Homework assignments will appear on the web at: http:/www.ece.udel.edu/~kolodzey/courses/eleg667_016f0
Delaware - ELEG - 646
ELEG 646, ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #2 - due Thursday, 24 February 2005, in class solution: 1.plotted as illustrated in the Figure below.Figure of Energy distribution of electrons and holes in an n-type sem
Delaware - ELEG - 646
ELEG 646, ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #3 - due Thursday, 10 March 2005, in class solution: 1.2.3.Homework assignments will appear on the web at: http:/www.ece.udel.edu/~kolodzey/courses/eleg667_016f04.html
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #4 - due Tuesday, 22 March 2005, in class 1.2. Let the sample in Prob. 1 (above) be n-type with no = 1016cm-3. (a) Assuming that each of the absorbed photons produce one el
Delaware - ELEG - 646
ELEG 646, ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #4 - due Tuesday, 22 March 2005, in class solution: 1.2.3.4.5.Homework assignments will appear on the web at: http:/www.ece.udel.edu/~kolodzey/courses/eleg667_016f0
Delaware - ELEG - 86701
Delaware - ELEG - 86701
Delaware - ELEG - 667
Delaware - ELEG - 45001
Tanner EDAL-EditTM Layout EditorOverview#L-Edit: An Integrated Circuit Layout Tool #Documentation ConventionsL-Edit Online User GuideContentsIndexHelpOverviewL-Edit: An Integrated Circuit Layout ToolL-Edit: An Integrated Circuit L
Delaware - ELEG - 667
ELEG 667016; MSEG-667-016 - Solid State Nanoelectronics Fall 2005 Homework #8 - due Tuesday, 22 November 2005, in class 1. Carbon Nanotube Structure: Derive the expressions for the unit vectors of graphene (unrolled nanotube) a1, a2, in terms of the
Delaware - ELEG - 667
ELEG 667016; MSEG-667-016 - Solid State Nanoelectronics Fall 2005 Homework #9 - due Monday, 12 December 2005, in ECE office, 140 Evans Hall 1. Photonic Crystal Reciprocal Structure: Consider the triangular lattice in 2-dimensional real space shown b
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device PrinciplesSpring 2006Homework #8 - due Thursday, 27 April 2006, in class - Solutions 1. Problem 3.12 (a) and (b) only, in chapter 3, Muller & Kamins, p.173 in 3rd edition. 2. Problem 3.15 in chapter 3, M
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #12 - due Thursday, 17 May 2007, noon, in Dept. office 1. Problem 8.5 in chapter 8 of Muller & Kamins, p.422 in 3rd edition. (Hint: see Berglund, IEEE TED, v. ED13, p. 701, 1
Delaware - ELEG - 646
6.730 PHYSICS FOR SOLID STATE APPLICATIONSDepartment of Electrical Engineering and Computer Science Massachusetts Institute of TechnologyIsued: 4-27-01PROBLEM SET 7 Due: 5-9-01, at the beginning of class.Problem 7.1 Total Conductivity Tensor f
Delaware - ELEG - 667
ELEG 667-010 - Advanced Nanostructure Devices Fall 2006 Homework #2 - due Monday, 25 September 2006, in class 1. Problem 1.5, in chapter 1, Lundstrom, p. 51 in 2nd edition. 2. Problem 1.9, in chapter 1, Lundstrom, p. 52 in 2nd edition. 3. Problem 2.
Delaware - ELEG - 667
ELEG 667-010 - Advanced Nanostructure Devices Fall 2006 Homework #6 - due Monday, 6 November 2006, in class1. Problem 4.22, in chapter 4, Lundstrom, p. 210 in 2nd edition. Hint: Use the approach of Eq. (4.115) to calculate the potential difference
Delaware - ELEG - 667
ELEG 667-010 - Advanced Nanostructure Devices Fall 2006 Homework #9 - due Wednesday, 6 December 2006, in class1. Problem 7.3, in chapter 7, Lundstrom, p. 312 in 2nd edition. Hint: equate Eq. (7.25) in text, with Eq. (7.36) to eliminate no and solve
Delaware - ELEG - 667
ELEG 667-010 - Advanced Nanostructure Devices Fall 2006 Homework #10 - due Tuesday, 12 December 2006, at noon in Dept. office1. Derive the Child-Langmuir equation, Eqn. (8.30), p. 330 in ML 2nd edition. Hints: Use the substitution, V(z) = azb and s
Delaware - ELEG - 667
Hint for Quiz 5 (Wednesday, Nov. 29): Starting with the energy balance equation, (8.3) in text, solve for the ratio Te/TL = 1 + etc.
Delaware - ELEG - 667
Hint for Quiz 5 (Wednesday, Nov. 29): Starting with the energy balance equation, (8.3) in text, solve for the ratio Te/TL = 1 + etc.
Delaware - ELEG - 667
Hint for Quiz 5 (Wednesday, Nov. 29): Starting with the energy balance equation, (8.3) in text, solve for the ratio Te/TL = 1 + etc.
Delaware - ELEG - 646
ELEG 646/ 446 -Nanoelectronic Device Principles - Spring 2005 Mid Term Examination 7 April 2005 Time Limit: I hour; Closed Books and Notes; NAME~.o,-u-T/ONHowever,you are permittedto use one page (both sides)of youown notes; Pleasedo not loancalc
Delaware - ELEG - 646
ELEG 646, ELEG 446 - Nanoelectronic Device Principles Spring 2005 Homework #1 - due Thursday, 17 February 2005, in class solution: 1.2.3.4.Homework assignments will appear on the web at: http:/www.ece.udel.edu/~kolodzey/courses/eleg667_016f0
Delaware - ELEG - 646
p-TYPESi (300K)NA = 4 x 1015cm-3-exp (q'/ls /2kTl (STRONG INVERSION)~-yY}-S'~e.)I,.p~S". oJ-S'-' 1.'(".-exp(ql'/ls'/2kTl(ACCUMULATION) D.ev.)"'1.he! -e.J.'W1{eJ,/Qg,) P. 36Cj,rf?f3 d~J"11~-r-e.J10-9 -0.4-0.2o0.
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #5 - due Tuesday, 20 March 2007, in class 1. Problem 4.1 in chapter 4, Muller & Kamins, p.222 in 3rd edition. 2. Problem 4.2, (a) and (d) only in chapter 4, Muller & Kamins,
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #7 - due Tuesday, 10 April 2007, in class 1. Calculate and compare the numerical values of the diffusion capacitance with that of the depletion capacitance. Assume a one side
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #10 - due Tuesday, 8 May 2007, in class - SOLUTIONS 1. Problem 7.2 in chapter 7 of Muller & Kamins, p. 375 in 3rd edition. Hint: this is an npn transistor, so use Eqns. 7.1.4
Delaware - ELEG - 646
ELEG 646; ELEG 446 - Nanoelectronic Device Principles Spring 2007 Homework #12 - due Thursday, 17 May 2007, noon, in Dept. office - SOLUTIONS 1. Problem 8.5 in chapter 8 of Muller & Kamins, p.422 in 3rd edition. (Hint: see Berglund, IEEE TED, v. ED1
Minnesota - AST - 4001
Dissecting the Explosion ofCassiopeia A L. Rudnick, AST4001, 18 Oct., 2007 AST4001/Oct `07Some co-conspiratorsTracey DeLaney (Ctr. For Astrophysics, MA) Jessica Ennis (MN) Jared Bowden (Calvin Coll.) Rob Petre, Una Hwang (Goddard SFC) Namir Ka
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Dissecting the Explosion of a Type II SupernovaCassiopeia A L. Rudnick, AST4001, 18 Oct., 2007 AST4001/Oct `07Some co-conspiratorsTracey DeLaney (Ctr. For Astrophysics, MA) Jessica Ennis (MN) Jared Bowden (Calvin Coll.) Rob Petre, Una Hwang (Go
University of Florida - MIL - 3701
University of FloridaDepartment of Electrical & Computer EngineeringEEL 3701 Fall 2002 Revision 0Dr. Eric M. Schwartz Professor in ECE29-Aug-02 1:00 PMPage 1/2LAB 1: Introduction to Laboratory EquipmentBEFORE YOU STARTGive your TA a piece
University of Florida - MIL - 3701
University of FloridaDepartment of Electrical & Computer EngineeringEEL 3701- Fall 2002 Revision 2Dr. Eric M. Schwartz Professor in ECE11-Sep-02 8:12 AMPage 1/2LAB 2: Logic DesignOBJECTIVES: To understand the operation of MaxPlusII as a
University of Florida - MIL - 3701
University of FloridaDepartment of Electrical & Computer EngineeringEEL 3701-Fall 2001 Revision 2Page 1/2Drs. Schwartz & Gugel Professors in ECE 24-Oct-01-5:53 PMLAB 7: Elementary Central Processing Unit (CPU) DesignOBJECTIVES The objective
University of Florida - MIL - 3701
University of FloridaDepartment of Electrical & Computer EngineeringEEL 3701- Spring 2002 Revision 1Dr. Eric M. Schwartz Professor in ECE29-Jan-02 8:15 AMPage 1/2LAB 2: Logic Design3.OBJECTIVES: To understand the operation of MaxPlusII
University of Florida - MIL - 3701
University of FloridaDepartment of Electrical & Computer EngineeringEEL 3701- Spring 2002 Revision 4Dr. Eric M. Schwartz Professor in ECE11-Apr-02 9:12 AMPage 1/4LAB 8: Elementary CPU Design: Fetching Instructions From a ROMOBJECTIVE The o
University of Florida - MIL - 3701
Date: November 18, 2008/mil.ufl.edu/ems/eel/3701/gcpu/gcpu-f08/computer.bdfProject: computerCPUMCLK /RESETINPUT VCC INPUT VCCcpuCLOCK /RESETMCLKExternal MemoryADDR[15.0] R_/W DATA7 DATA6 DATA5 DATA4 DATA3 DATA2 DATA1 DATA0 A[7.0] B[7.0
University of Florida - MIL - 3701
Date: November 18, 2008/mil.ufl.edu/ems/eel/3701/gcpu/gcpu-f08/ir/ir.bdfProject: computerInstruction Register (IR)CLK /RESET /IR_LD DATA[5.0]INPUT VCC INPUT VCC INPUT VCC INPUT VCCDATA0 IR0 IR_LD121muxA B SDFF9VCCY MULTIPLEXER13
WVU - CPE - 242
Presented By: Rodney Fluharty Dec. 07, 2000Who is ARM? Advanced Risc Microprocessor is the industry's leading provider of 16/32-bit embedded RISC microprocessor solutions. Licenses their high-performance, powerefficient RISC processors, periphera
University of Florida - OLD - 3701
MAX+plus II 10.1 File: CONTROLLER.GDF Date: 11/20/2002 09:59:30 Page: 1Controller Input & OutputCLK /RESET ZERO_FLAG NEG_FLAG IR[5.0]OUTPUT OUTPUT OUTPUT INPUT INPUT INPUT INPUT INPUTController LogicLPM_ADDRESS_CONTROL="UNREGISTERED" LPM_FILE=
University of Florida - OLD - 3701
MAX+plus II 10.1File: CONTROLLER_ROM.MIFDate: 11/19/2002 15:09:41Page: 1% File name = controller_rom.mif % % * % DEPTH = 16384; % Address Bus Size % WIDTH = 32; % Data Bus Size % ADDRESS_RADIX DATA_RADIX CONTENT BEGIN [0.FF] [100.103] [104.10
University of Florida - OLD - 3701
MAX+plus II 10.1 File: PC_MAR_IX.GDF Date: 11/20/2002 10:00:14 Page: 1Program Counter Register/PC_LD_L DATA0 DATA1 DATA2 DATA3 PC_INC /RESET CLK 74161LDN A B C D ENT ENP CLRNMemory Address Register74161LDN A B C D ENT ENP CLRNX Index Registe
University of Florida - OLD - 3701
MAX+plus II 10.1 File: XDR_YDR.GDF Date: 11/20/2002 09:59:51 Page: 1CLK /RESET XD_LD YD_LD DATA[7.0]OUTPUTINPUT INPUT INPUTX Displacement Register (XDR)VCCY Displacement Register (YDR)VCCINPUT INPUTXD0 DATA0 /XD_LD CLK /RESET21muxA