SYDE 292 Circuits, Instrumentation and Measurement Instructor: Prof. Dan Stashuk DC 2613 Ext 32982 Objectives: Based on E & M.

Slides:

Advertisements

Similar presentations

Instrumentation (AMME2700) 1 Instrumentation Dr. Xiaofeng Wu.

Advertisements

Principles of Telecommunications Technology Chapter 2.

EE2010 Fundamentals of Electric Circuits Text Book: Introductory Circuit Analysis - Robert Boylestad.

Lecture 101 Introduction to Energy Storage Elements: The Capacitor.

Announcements Troubles with Assignments… –Assignments are 20% of the final grade –Exam questions very similar (30%) Deadline extended to 5pm Fridays, if.

Announcements 1.Midterm No. 1 Thursday Oct. 6 in class; one 8-1/2 x 11 sheet of notes allowed. No text, no calculator, no operating cell phones; no blue.

1 Dr. Un-ki Yang Particle Physics Group or Shuster 5.15 Amplifiers and Feedback 1.

전자 회로 1 Lecture 1 임한조 아주대학교 전자공학부

Lecture 31 Electrical Instrumentation. Lecture 32 Electrical Instrumentation Electrical instrumentation is the process of acquiring data about one or.

Course Introduction ENTC 210: Circuit Analysis I Rohit Singhal Lecturer Texas A&M University.

ECE201 Lect-171 Capacitors (6.1); Inductors (6.2); LC Combinations (6.3) Dr. Holbert April 5, 2006.

Lecture161 Instrumentation Prof. Phillips March 14, 2003.

Lecture 1 EE70 Fall Instructor Joel Kubby (that would be me) Office: BE-249 Office Hours: M,W,F 2-3 PM or by appointment Phone: (831)

Announcements Tuesday’s Lecture next week is cancelled –October 18 th Assignment 4 is active, due in my mailbox by 5pm Friday (October 14 th ) Mid-term.

EGR 240 Introduction to Electrical and Computer Engineering

© Electronics ECE 1312 Taaruf Nor Farahidah Za’bah Room number : E Phone number : address : 

EGR 240 Introduction to Electrical and Computer Engineering Prof. Michael P. Polis 102J Science & Engineering Building.

Lecture 101 Capacitors (5.1); Inductors (5.2); LC Combinations (5.3) Prof. Phillips March 7, 2003.

Self-inductance and inductors(sec. 30.2) Magnetic field energy(sec. 30.3) RL circuit(sec. 30.4) LC circuit (sec. 30.5) RLC series circuit (sec. 30.6) Inductance.

EGR 240 Introduction to Electrical and Computer Engineering Prof. Richard E. Haskell 115 Dodge Hall Prof. Michael P. Polis 102J Science & Engineering Building.

Circuit Theory What you will use this for –Power management –Signals between subsystems –Possible analog data types How the knowledge will help you –Understanding.

ELECTRICAL ENGINEERING: PRINCIPLES AND APPLICATIONS, Fourth Edition, by Allan R. Hambley, ©2008 Pearson Education, Inc. Lecture 19 High Pass Filters, 2.

Components, Quantities, and Units

Engineering H192 - Computer Programming Gateway Engineering Education Coalition Lab 4P. 1Winter Quarter Analog Electronics Lab 4.

INC 111 Basic Circuit Analysis

MAGNETICALLY COUPLED NETWORKS

EKT314/4 Electronic Instrumentation

EKT314/4 Electronic Instrumentation

Overview of ENGR 220 Circuits 1 Fall 2005 Harding University Jonathan White.

© The McGraw-Hill Companies, Inc McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I 15.

1 Dr. Un-ki Yang Particle Physics Group or Shuster 5.15 Amplifiers and Feedback 1.

Engineering H192 - Computer Programming The Ohio State University Gateway Engineering Education Coalition Lab 3P. 1Winter Quarter Analog Electronics Lab.

Review Part 3 of Course. Passive Circuit Elements i i i + -

Agenda and Notes Today, during class! 9:30 a.m. Boeing Space and Intelligence Systems (Matt and Matt) 4 extra credit assignments available at the bottom.

INC 112 Basic Circuit Analysis Lecturer Assistant Prof. Dr. Poj Tangamchit.

Gneral Physics II, Syllibus, By/ T.A. Eleyan1 General Physics II Instructor Tamer A. Eleyan 2008/2009.

Welcome to Physics 220. What will we study? Electricity and Magnetism Why? To Graduate.

ENG3640 Micro Computer Interfacing General Information Handout Fall 2012, September 7 th ENG3640 Fall

EE 211 Lecture 4 T. H. Ortmeyer Spring This week’s labs Grounding Lab Labview Tutorial.

EE445:Industrial Electronics. Outline Introduction Some application Comparators Integrators & Differentiators Summing Amplifier Digital-to-Analog (D/A)

EE 221 Review 2 Nodal and Mesh Analysis Superposition Source transformation Thevenin and Norton equivalent Operational Amplifier.

ECE 4991 Electrical and Electronic Circuits Chapter 4.

Instrumentation (AMME2700) 1 Instrumentation Dr. Xiaofeng Wu.

Fall 2008Lecture 0-1Physics 231 Physics 231 Fall 2008 Electricity and Magnetism DC & AC Circuits.

Biomedical Control Systems (BCS) Module Leader: Dr Muhammad Arif muhammadarif Batch: 10 BM Year: 3 rd Term: 2 nd Credit Hours (Theory):

Fundamentals of Electric Circuits Chapter 16 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

EENG 2610: Circuit Analysis Class 11: Capacitor and Inductor Combinations RC Operational Amplifier Circuits Oluwayomi Adamo Department of Electrical Engineering.

Lecture 4: Electrical Circuits

SE207: Modeling and Simulation General instructions.

Chapter 5: CAPACITANCE and INDUCTANCE

CHAPTERS 7 & 8 CHAPTERS 7 & 8 NETWORKS 1: NETWORKS 1: December 2002 – Lecture 8a ROWAN UNIVERSITY College of Engineering Professor.

Sanna Taking & Mohamad Nazri Abdul Halif School of Microelectronic Engineering Prepared by DC & AC BRIDGES Part 2 (AC Bridge) Syarifah Norfaezah Edited.

EEE 206 Electronics I Assist. Prof. Dr. Mustafa Musić Galib Sikirić

Introduction Filters are circuits that are capable of passing signals within a band of frequencies while rejecting or blocking signals of frequencies outside.

MECH 373 Instrumentation and Measurements

ECE 4991 Electrical and Electronic Circuits Chapter 4

INDUSTRIAL ELECTRONICS/ELECTRICITY

Components, Quantities, and Units

ECE 1270: Introduction to Electric Circuits

ECE 1270: Introduction to Electric Circuits

Phys 133 Electromagnetism

Fundamentals of Electric Circuits Chapter 16

INTRODUCTION TO CIRCUIT THEORY

INTRODUCTION Session Section 02: 01:00-02:20 p.m.

Instrumentation & Measurement (ME342)

Opamps Engineered for Tomorrow Date dd.mm.yy Manju Khanna.

Announcement Next class: 10 min Quiz Material: Book Chapter 10

Chapter 5 OUTLINE Op-Amp from 2-Port Blocks

Prof. Dr. Nizamettin AYDIN

Phys 16 General Physics IIa

Presentation transcript:

SYDE 292 Circuits, Instrumentation and Measurement Instructor: Prof. Dan Stashuk DC 2613 Ext Objectives: Based on E & M field concepts define circuit components and introduce circuit concepts. Introduce instrumentation components necessary for making electrical analog measurements and digitally acquiring these measurements. Discuss how these components are configured for making measurements and possible sources of measurement errors.

E & M Field Concepts: electric and magnetic fields charge, electric fields, voltage current magnetic fields resistance, capacitance, inductance OUTLINE

Maxwell’s Equations

OUTLINE Gauss’s Law Maxwell’s Equations

OUTLINE Gauss’s Law Ampere’s Law Maxwell’s Equations

OUTLINE Gauss’s Law Ampere’s Law Faraday’s Law Maxwell’s Equations

OUTLINE Gauss’s Law Ampere’s Law Faraday’s Law Gauss’s Law for Magnetism Maxwell’s Equations

Circuit Components: voltage and current sources resistors, capacitors, inductors Circuit Concepts: voltages and currents nodal and mesh analysis voltage and current division input and output impedance loading effects transfer functions frequency response OUTLINE

Instrumentation (measurement tools ): Operational amplifiers ideal vs real characteristics Operational amplifier circuits Instrumentation amplifiers OUTLINE

Instrumentation (measurement tools ): Transducers Active Passive Interfacing Linearization OUTLINE

Instrumentation (measurement tools ): Filters Why? Passive vs active Active 2nd order circuits OUTLINE

Instrumentation (measurement tools ): A/D and D/A converter circuits how? OUTLINE

Measurement:The Data Acquisition Channel analog signal detection analog signal conditioning (processing) sampling and digital conversion sources of error OUTLINE

Measurement:The Data Acquisition Channel analog signal detection analog signal conditioning (processing) sampling and digital conversion sources of error OUTLINE

General: Three or four hours of lectures per week Nine labs including: Preparation time, Three hours in lab (CPH 1335A), Write up Periodic assignments (5) "Hands on" mid term Final exam Laboratory groups: 35 groups of 3 Classified based on day (Mon., Tues., Wed. etc) and lab station (1 - 7) Sign up in CPH OPERATIONS FORMAT

Submission of Reports: Professional form Only one report per group Reports to be submitted to box outside of E2-1303B within 1 weekof scheduled lab time. Format of Report: See hand out Notes:Laboratory descriptions are available at the UW Book Store Projected diagrams are available at the UW Book Store Lab books are highly recommended Conduct: Laboratory is open from 2:30 to 5:30 Monday to Friday. Attendance recorded and unprofessional conduct noted. No food, drink or smoking in the laboratory. OPERATIONS FORMAT

Grading: Periodic assignments will be handed out - not graded. Solutions in Copy Center Laboratory reports and preparation40 "Hands on" mid term 15 Final exam45 Note: Must "pass" both the mid-term and the final exam. Text:Selected sections from: Engineering Circuit AnalysisHayt and Kemmerly Micro Electronic Circuit DesignJaeger Available at the UW Book Store. OPERATIONS FORMAT

Schedule: Week 1Sept No Lab Lab sign-up Week 2Sept Lab #0Laboratory Introduction Week 3Sept 25 – 29Lab #1Circuit Concepts and RC Transient Response Week 4Oct 2 - 6Lab #2Freq. Response and Non-ideal Instruments *Week 5Oct Lab #3Introduction to Op Amps Week 6Oct Lab #4Practical Op-Amp circuits Week 7Oct Lab #5Instrumentation Amplifiers Week 8Oct 30 - Nov 3Lab #6Introduction to Filters Week 9Nov In lab, "hands on" mid term Week 10Nov Lab #7D/A and A/D Conversion Week 11Nov Lab #8Data Acquisition Channel Week 12 Nov 27 – Dec 1Lab #9Error Analysis * Thankgiving Monday holiday: Monday groups must rearrange scheduled lab time. OPERATIONS FORMAT