Electronics Design Laboratory Lecture #1, Fall 2014
|
|
- Elinor Hubbard
- 5 years ago
- Views:
Transcription
1 Electronics Design Laboratory Lecture #1, Fall 2014 Dr. Daniel Seltzer Teaching Assistants: Fenglong Lu & Ali Sepahvand Electronics Design Laboratory 1
2 Daniel Seltzer Fenglong Lu Ali Sepahvand Prerequisites and Co-requisites Prerequisite: ECEN2250 Intro to Circuits & Electronics Co-requisite: ECEN2260 Circuits as Systems Meeting times Lectures: Monday 3-3:50pm ECCR135 Lab Section 021: 10:30-12:20 TTh ECEE 281 Lab Section 022: 10:30-12:20 TTh ECEE 282 Note: attendance in the lab is required to receive any lab credit Electronics Design Laboratory 2
3 Course Overview Wireless Transmitter Circuit Motor Driver Circuit Wireless Receiver Circuit Robot Control Circuit Motor Driver Circuit Electric Motor Electric Motor Lab 1: Lab equipment, circuit prototyping, de-bugging and simulations Lab 2: Speed sensor & Robot DC motor characterization Lab 3: Motor drive and speed control circuits Lab 4: Microcontroller based speed and position control Lab 5: Robot remote control Lab 6: Final Project Electronics Design Laboratory 3
4 Overall lab goals Laboratory skills and competence Proficiency in use of laboratory equipment Ability to read, understand, and create circuit diagrams Experience in design, testing and debugging electronic circuits, working with discrete and IC components Simulation, analysis and design tools Spice simulation as a design verification and debugging tool MATLAB analysis of data Application of core electrical engineering theory Time-domain response: 1 st and 2 nd order, distortion Frequency-domain response: bode plots, filters Active components, nonlinearity: op-amps, diodes, BJTs, MOSFETs Feedback and control Electronics Design Laboratory 4
5 Organization Teams Teams of 2 Students + 1 Robot Begin working in teams tomorrow (select partner today!) Purchasing kits Purchase kit per team: component kit: $160; tools kit: $70 (prices shown are approximate, please check with the EE store ECEE 1B10) Purchase at the EE Store, ECEE 1B10, before lab tomorrow EE Store hours: 9am 4pm, M-F Lab computer access ECES student server: Check with EE office about card access if you don t have it yet D2L: Turn in lab reports and monitor grades Not up yet, but will be before first deadline Electronics Design Laboratory 5
6 Grading In-class quizzes [individual] Pre-lab assignments [individual] Labs 1-5 Demonstrations [group and individual] Reports [group] Final project Proposal slides and presentation [group] Proposal [group] Expo [group and individual] Report [group] Lab attendance and performance Electronics Design Laboratory 6
7 Electronics Design Laboratory Lab 1 Part A Electronics Design Laboratory 7
8 Objectives Lab 1: Introduction Develop laboratory and circuit design skills and techniques, perform simulations, prototyping, testing and debugging Part A: Laboratory equipment Become familiar with electronic laboratory equipment Part B: Reverse engineering lab: circuit schematics and prototypes Gain experience working with electronic components, circuit schematics, prototyping boards, and simulation Lab procedures: posted on the course website Electronics Design Laboratory 8
9 Lab 1, Part A: Laboratory Objective Equipment Become familiar with electronic laboratory equipment Equipment Multimeter, power supply, waveform generator, and oscilloscope Task overview 1. Configure power supply and multimeter to power a basic circuit and measure resistances, voltages, and currents 2. Configure waveform generator and oscilloscope to capture specified waveforms and pulse signals Electronics Design Laboratory 9
10 Triple output DC supply all outputs 0V 6V, 5A Store and Recall functions to 0V +25V, 1A save and re-use lab settings 0V -25V, 1A Select voltage and current limits for each output (Display Limit) Output On/Off: one enable for Electronics Design Laboratory 10
11 Multimeter measures current, voltage and resistance Separate front terminals for current, voltage, and resistance measurements 3 A fuse for current measurements Panel buttons select measurement type and range settings 2-Wire (2W) and 4-Wire (4W) resistance measurement options Additional two terminals used for 4-wire measurement to cancel effects of voltage drop in wires Electronics Design Laboratory 11
12 Waveform Generator Generates Sine, Square, Ramp, and Pulse waveforms and arbitrary waveforms (user or pre-defined) Menus used to select waveform and settings (frequency, amplitude, offset, duty, etc.) Channel and output buttons used to enable/disable output and set trigger source for starting output Output modeled as a voltage source with a series resistance, or impedance of 50 Ohms Menu used to select Load impedance so the displayed voltage matches the expected output Max output: +/- 10V into High Z load (+/- 5V into 50 Ohm load) Electronics Design Laboratory 12
13 Oscilloscope Displays time-domain waveforms of the signals for each of the four channels Documentation exists on the Agilent Technologies website Use it! Electronics Design Laboratory 13
14 Displays time-domain waveforms of the signals for each of the four channels Four input channels allows four signals to be viewed 1 MΩ, 10 pf input impedance Select vertical (voltage) and horizontal (time) axis resolution Each channel can have a different vertical scale Trigger Auto: captures waveform immediately Normal: captures based on trigger level Single trigger captures and displays a single sampling of the waveform Acquisition modes Normal: continuously displays captures Average: averages selected number of captures, then displays the average Peak Detect: holds peak values to detect narrow excursions Display settings directly impact vertical and horizontal resolution 8-bit vertical resolution (of full scale) 1 ns sampling to internal memory with only 10 kpts / ch For longer time settings, points are dropped (decimated) and interpolated Electronics Design Laboratory 14
15 Displays time-domain waveforms of the signals for each of the four channels Four input channels allows four signals to be viewed 1 MΩ, 10 pf input impedance Select vertical (voltage) and horizontal (time) axis resolution Each channel can have a different vertical scale Trigger Auto: captures waveform immediately Normal: captures based on trigger level Single trigger captures and displays a single sampling of the waveform Acquisition modes Normal: continuously displays captures Average: averages selected number of captures, then displays the average Peak Detect: holds peak values to detect narrow excursions Display settings directly impact vertical and horizontal resolution 8-bit vertical resolution (of full scale) 1 ns sampling to internal memory with only 10 kpts / ch For longer time settings, points are dropped (decimated) and interpolated Electronics Design Laboratory 15
16 What to do next By tomorrow (1 st lab period) Find team partner Purchase component and tools kits (if you do not have one) Browse through lab website: ecee.colorado.edu/~ecen2270 Read Lecture 1 slides on the lab website Read through Experiment 1 Part A slides and Lab report guidelines Complete Experiment 1 Part A pre-lab By next week (3 rd lab period) Read through Lecture 2 slides on the lab website Read through Experiment 1 Part B slides and Lab report guidelines Complete Experiment 1 Part B pre-lab Electronics Design Laboratory 16
Experiment 1.A. Working with Lab Equipment. ECEN 2270 Electronics Design Laboratory 1
.A Working with Lab Equipment Electronics Design Laboratory 1 1.A.0 1.A.1 3 1.A.4 Procedures Turn in your Pre Lab before doing anything else Setup the lab waveform generator to output desired test waveforms,
More informationLab: Operational Amplifiers
Page 1 of 6 Laboratory Goals Familiarize students with Integrated Circuit (IC) construction on a breadboard Introduce the LM 741 Op-amp and its applications Design and construct an inverting amplifier
More informationIntroduction to Basic Laboratory Instruments
Introduction to Contents: 1. Objectives... 2 2. Laboratory Safety... 2 3.... 2 4. Using a DC Power Supply... 2 5. Using a Function Generator... 3 5.1 Turn on the Instrument... 3 5.2 Setting Signal Type...
More informationEELE 201 Circuits I. Fall 2013 (4 Credits)
EELE 201 Circuits I Instructor: Fall 2013 (4 Credits) Jim Becker 535 Cobleigh Hall 994-5988 Office hours: Monday 2:30-3:30 pm and Wednesday 3:30-4:30 pm or by appointment EMAIL: For EELE 201-related questions,
More informationUniversity of Jordan School of Engineering Electrical Engineering Department. EE 204 Electrical Engineering Lab
University of Jordan School of Engineering Electrical Engineering Department EE 204 Electrical Engineering Lab EXPERIMENT 1 MEASUREMENT DEVICES Prepared by: Prof. Mohammed Hawa EXPERIMENT 1 MEASUREMENT
More informationIntroduction to basic laboratory instruments
Introduction to basic laboratory instruments 1. OBJECTIVES... 2 2. LABORATORY SAFETY... 2 3. BASIC LABORATORY INSTRUMENTS... 2 4. USING A DC POWER SUPPLY... 2 5. USING A FUNCTION GENERATOR... 3 5.1 TURN
More informationLab 6: Instrumentation Amplifier
Lab 6: Instrumentation Amplifier INTRODUCTION: A fundamental building block for electrical measurements of biological signals is an instrumentation amplifier. In this lab, you will explore the operation
More informationIntro To Engineering II for ECE: Lab 7 The Op Amp Erin Webster and Dr. Jay Weitzen, c 2014 All rights reserved.
Lab 7: The Op Amp Laboratory Objectives: 1) To introduce the operational amplifier or Op Amp 2) To learn the non-inverting mode 3) To learn the inverting mode 4) To learn the differential mode Before You
More informationLab Equipment EECS 311 Fall 2009
Lab Equipment EECS 311 Fall 2009 Contents Lab Equipment Overview pg. 1 Lab Components.. pg. 4 Probe Compensation... pg. 8 Finite Instrumentation Impedance. pg.10 Simulation Tools..... pg. 10 1 - Laboratory
More informationLAB I. INTRODUCTION TO LAB EQUIPMENT
LAB I. INTRODUCTION TO LAB EQUIPMENT 1. OBJECTIVE In this lab you will learn how to properly operate the basic bench equipment used for characterizing active devices: 1. Oscilloscope (Keysight DSOX 1102A),
More informationLABORATORY 4. Palomar College ENGR210 Spring 2017 ASSIGNED: 3/21/17
LABORATORY 4 ASSIGNED: 3/21/17 OBJECTIVE: The purpose of this lab is to evaluate the transient and steady-state circuit response of first order and second order circuits. MINIMUM EQUIPMENT LIST: You will
More informationIntegrators, differentiators, and simple filters
BEE 233 Laboratory-4 Integrators, differentiators, and simple filters 1. Objectives Analyze and measure characteristics of circuits built with opamps. Design and test circuits with opamps. Plot gain vs.
More informationElectronics Design Laboratory Lecture #6. ECEN2270 Electronics Design Laboratory
Electronics Design Laboratory Lecture #6 Electronics Design Laboratory 1 Soldering tips ECEN 227 Electronics Design Laboratory 2 Introduction to Lab 3 Part B: Closed-Loop Speed Control -1V Experiment 3A
More informationName: Resistors and Basic Resistive Circuits. Objective: To gain experience with data acquisition proto-boards physical resistors. Table of Contents:
Objective: To gain experience with data acquisition proto-boards physical resistors Table of Contents: Name: Resistors and Basic Resistive Circuits Pre-Lab Assignment 1 Background 2 National Instruments
More informationExperiment 5.A. Basic Wireless Control. ECEN 2270 Electronics Design Laboratory 1
.A Basic Wireless Control ECEN 2270 Electronics Design Laboratory 1 Procedures 5.A.0 5.A.1 5.A.2 5.A.3 5.A.4 5.A.5 5.A.6 Turn in your pre lab before doing anything else. Receiver design band pass filter
More informationENGR 1110: Introduction to Engineering Lab 7 Pulse Width Modulation (PWM)
ENGR 1110: Introduction to Engineering Lab 7 Pulse Width Modulation (PWM) Supplies Needed Motor control board, Transmitter (with good batteries), Receiver Equipment Used Oscilloscope, Function Generator,
More informationEducator s Oscilloscope Training Kit for the InfiniiVision 2000 & 3000 X-Series
Educator s Oscilloscope Training Kit for the InfiniiVision 2000 & 3000 X-Series Data Sheet Oscilloscope training tools created specifically for electrical engineering and physics undergraduate students
More informationME 365 EXPERIMENT 1 FAMILIARIZATION WITH COMMONLY USED INSTRUMENTATION
Objectives: ME 365 EXPERIMENT 1 FAMILIARIZATION WITH COMMONLY USED INSTRUMENTATION The primary goal of this laboratory is to study the operation and limitations of several commonly used pieces of instrumentation:
More informationECE 201 LAB 8 TRANSFORMERS & SINUSOIDAL STEADY STATE ANALYSIS
Version 1.1 1 of 8 ECE 201 LAB 8 TRANSFORMERS & SINUSOIDAL STEADY STATE ANALYSIS BEFORE YOU BEGIN PREREQUISITE LABS Introduction to MATLAB Introduction to Lab Equipment Introduction to Oscilloscope Capacitors,
More informationMultiple Instrument Station Module
Multiple Instrument Station Module Digital Storage Oscilloscope Vertical Channels Sampling rate Bandwidth Coupling Input impedance Vertical sensitivity Vertical resolution Max. input voltage Horizontal
More informationEE 3302 LAB 1 EQIUPMENT ORIENTATION
EE 3302 LAB 1 EQIUPMENT ORIENTATION Pre Lab: Calculate the theoretical gain of the 4 th order Butterworth filter (using the formula provided. Record your answers in Table 1 before you come to class. Introduction:
More informationReal Analog - Circuits 1 Chapter 11: Lab Projects
Real Analog - Circuits 1 Chapter 11: Lab Projects 11.2.1: Signals with Multiple Frequency Components Overview: In this lab project, we will calculate the magnitude response of an electrical circuit and
More informationLAB II. INTRODUCTION TO LAB EQUIPMENT
1. OBJECTIVE LAB II. INTRODUCTION TO LAB EQUIPMENT In this lab you will learn how to properly operate the oscilloscope Keysight DSOX1102A, the Keithley Source Measure Unit (SMU) 2430, the function generator
More informationLAB I. INTRODUCTION TO LAB EQUIPMENT
1. OBJECTIVE LAB I. INTRODUCTION TO LAB EQUIPMENT In this lab you will learn how to properly operate the oscilloscope Agilent MSO6032A, the Keithley Source Measure Unit (SMU) 2430, the function generator
More informationET475 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
More informationModule 9C: The Voltage Comparator (Application: PWM Control via a Reference Voltage)
Explore More! Points awarded: Module 9C: The Voltage Comparator (Application: PWM Control via a Reference Voltage) Name: Net ID: Laboratory Outline A voltage comparator considers two voltage waveforms,
More informationPhysics 120 Lab 1 (2018) - Instruments and DC Circuits
Physics 120 Lab 1 (2018) - Instruments and DC Circuits Welcome to the first laboratory exercise in Physics 120. Your state-of-the art equipment includes: Digital oscilloscope w/usb output for SCREENSHOTS.
More informationOperational Amplifiers 2 Active Filters ReadMeFirst
Operational Amplifiers 2 Active Filters ReadMeFirst Lab Summary In this lab you will build two active filters on a breadboard, using an op-amp, resistors, and capacitors, and take data for the magnitude
More informationLaboratory Project 1a: Power-Indicator LED's
2240 Laboratory Project 1a: Power-Indicator LED's Abstract-You will construct and test two LED power-indicator circuits for your breadboard in preparation for building the Electromyogram circuit in Lab
More informationBME 3512 Bioelectronics Laboratory Five - Operational Amplifiers
BME 351 Bioelectronics Laboratory Five - Operational Amplifiers Learning Objectives: Be familiar with the operation of a basic op-amp circuit. Be familiar with the characteristics of both ideal and real
More informationCHAPTER 6. Motor Driver
CHAPTER 6 Motor Driver In this lab, we will construct the circuitry that your robot uses to drive its motors. However, before testing the motor circuit we will begin by making sure that you are able to
More informationLab 0: Introduction to basic laboratory instruments. Revised by Dan Hoang & Tai-Chang Chen 03/30/2009
Lab 0: Introduction to basic laboratory instruments Revised by Dan Hoang & Tai-Chang Chen 03/30/2009 1. Objectives 1. To learn safety procedures in the laboratory. 2. To learn how to use basic laboratory
More informationMASSACHUSETTS INSTITUTE OF TECHNOLOGY
Name: MASSACHUSETTS INSTITUTE OF TECHNOLOGY 6.091 Hands-On Introduction to EE Lab Skills Laboratory No. 1 Oscilloscopes, Multimeter, Function Generator IAP 2008 1 Objective In this laboratory, you will
More informationME 461 Laboratory #5 Characterization and Control of PMDC Motors
ME 461 Laboratory #5 Characterization and Control of PMDC Motors Goals: 1. Build an op-amp circuit and use it to scale and shift an analog voltage. 2. Calibrate a tachometer and use it to determine motor
More informationAgilent 33522A Function Arbitrary Waveform Generator. Tektronix TDS 3012B Oscilloscope
Agilent 33522A Function/Arbitrary Waveform Generator and Tektronix TDS 3012B Oscilloscope Agilent 33522A Function Arbitrary Waveform Generator The signal source for this lab is the Agilent 33522A Function
More informationEach individual is to report on the design, simulations, construction, and testing according to the reporting guidelines attached.
EE 352 Design Project Spring 2015 FM Receiver Revision 0, 03-02-15 Interim report due: Friday April 3, 2015, 5:00PM Project Demonstrations: April 28, 29, 30 during normal lab section times Final report
More informationIntroduction to basic laboratory instruments
BEE 233 Laboratory-1 Introduction to basic laboratory instruments 1. Objectives To learn safety procedures in the laboratory. To learn how to use basic laboratory instruments: power supply, function generator,
More informationClass #9: Experiment Diodes Part II: LEDs
Class #9: Experiment Diodes Part II: LEDs Purpose: The objective of this experiment is to become familiar with the properties and uses of LEDs, particularly as a communication device. This is a continuation
More informationInstructor: Aaron T. Ohta Office Hours: Mon 3:30 to 4:30 pm
EE 323 Microelectronic Circuits I Lecture: MWF 2:30 to 3:20 pm, POST 127 Labs: Section 1 Tue 9:00 to 11:50 am, Holmes 358 Section 2 Thur 9:00 to 11:50 am, Holmes 358 Section 3 Tue 1:30 to 4:20 pm, Holmes
More informationLAB II. INTRODUCTION TO LABVIEW
1. OBJECTIVE LAB II. INTRODUCTION TO LABVIEW In this lab, you are to gain a basic understanding of how LabView operates the lab equipment remotely. 2. OVERVIEW In the procedure of this lab, you will build
More informationLab #1 Lab Introduction
Cir cuit s 212 Lab Lab #1 Lab Introduction Special Information for this Lab s Report Because this is a one-week lab, please hand in your lab report for this lab at the beginning of next week s lab. The
More informationEE 110 Introduction to Engineering & Laboratory Experience Saeid Rahimi, Ph.D. Lab 0: Course Introduction
EE 110 Introduction to Engineering & Laboratory Experience Saeid Rahimi, Ph.D. Lab 0: Course Introduction The primary goal of the one-unit EE110 course is to serve as a small window to allow the freshman
More informationPreLab 6 PWM Design for H-bridge Driver (due Oct 23)
GOAL PreLab 6 PWM Design for H-bridge Driver (due Oct 23) The overall goal of Lab6 is to demonstrate a DC motor controller that can adjust speed and direction. You will design the PWM waveform and digital
More informationFall 2009 ElEn 256 Analog and Digital Signal Processing
Fall 2009 ElEn 256 Analog and Digital Signal Processing Professor: Gary Schwartz Prerequisite: ElEn 146 Office: C219 Co-requisite: none Office Ph: (250) 762-5445 ext 4376 Lecture: 3 hrs/week Email: gschwartz@okanagan.bc.ca
More informationEE 230 Lab Lab 9. Prior to Lab
MOS transistor characteristics This week we look at some MOS transistor characteristics and circuits. Most of the measurements will be done with our usual lab equipment, but we will also use the parameter
More information1. Hand Calculations (in a manner suitable for submission) For the circuit in Fig. 1 with f = 7.2 khz and a source vin () t 1.
Objectives The purpose of this laboratory project is to introduce to equipment, measurement techniques, and simulations commonly used in AC circuit analysis. In this laboratory session, each student will:
More informationMASSACHUSETTS INSTITUTE OF TECHNOLOGY Hands-On Introduction to EE Lab Skills Laboratory No. 2 BJT, Op Amps IAP 2008
Name MASSACHUSETTS INSTITUTE OF TECHNOLOGY 6.09 Hands-On Introduction to EE Lab Skills Laboratory No. BJT, Op Amps IAP 008 Objective In this laboratory, you will become familiar with a simple bipolar junction
More informationEE 330 Laboratory 8 Discrete Semiconductor Amplifiers
EE 330 Laboratory 8 Discrete Semiconductor Amplifiers Fall 2017 Contents Objective:... 2 Discussion:... 2 Components Needed:... 2 Part 1 Voltage Controlled Amplifier... 2 Part 2 Common Source Amplifier...
More information4. Digital Measurement of Electrical Quantities
4.1. Concept of Digital Systems Concept A digital system is a combination of devices designed for manipulating physical quantities or information represented in digital from, i.e. they can take only discrete
More informationParts to be supplied by the student: Breadboard and wires IRLZ34N N-channel enhancement-mode power MOSFET transistor
University of Utah Electrical & Computer Engineering Department ECE 1250 Lab 3 Electronic Speed Control and Pulse Width Modulation A. Stolp, 12/31/12 Rev. Objectives 1 Introduce the Oscilloscope and learn
More informationExperiment 9 The Oscilloscope and Function Generator
Experiment 9 The Oscilloscope and Function Generator Introduction The oscilloscope is one of the most important electronic instruments available for making circuit measurements. It displays a curve plot
More informationEE (3L-1.5P) Analog Electronics Department of Electrical and Computer Engineering Fall 2015
EE 221.3 (3L-1.5P) Analog Electronics Department of Electrical and Computer Engineering Fall 2015 Description: Introduction to solid state electronics. Emphasis is on circuit design concepts with extensive
More informationEquipment: You will use the bench power supply, function generator and oscilloscope.
EE203 Lab #0 Laboratory Equipment and Measurement Techniques Purpose Your objective in this lab is to gain familiarity with the properties and effective use of the lab power supply, function generator
More informationTime-Varying Signals
Time-Varying Signals Objective This lab gives a practical introduction to signals that varies with time using the components such as: 1. Arbitrary Function Generator 2. Oscilloscopes The grounding issues
More informationEE152 Final Project Report
LPMC (Low Power Motor Controller) EE152 Final Project Report Summary: For my final project, I designed a brushless motor controller that operates with 6-step commutation with a PI speed loop. There are
More informationLab 9 Frequency Domain
Lab 9 Frequency Domain 1 Components Required Resistors Capacitors Function Generator Multimeter Oscilloscope 2 Filter Design Filters are electric components that allow applying different operations to
More informationFaculty of Engineering, Thammasat University
Faculty of Engineering, Thammasat University Experiment 6: Oscilloscope (For room 506) Objectives: 1. To familiarize you with the Oscilloscope and Function Generator User Manual: Oscilloscope 1 5 9 4 7
More informationCPE 310L EMBEDDED SYSTEM DESIGN LABORATORY
CPE 310L EMBEDDED SYSTEM DESIGN LABORATORY LABORATORY 1 LAB SAFETY & LAB EQUIPMENT USE TUTORIAL DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING UNIVERSITY OF NEVADA, LAS VEGAS GOALS: Introduce laboratory
More informationME 365 EXPERIMENT 7 SIGNAL CONDITIONING AND LOADING
ME 365 EXPERIMENT 7 SIGNAL CONDITIONING AND LOADING Objectives: To familiarize the student with the concepts of signal conditioning. At the end of the lab, the student should be able to: Understand the
More informationDual Channel Function/Arbitrary Waveform Generators 4050 Series
Data Sheet Dual Channel Function/Arbitrary Waveform Generators The Dual Channel Function/Arbitrary Waveform Generators are capable of generating stable and precise sine, square, triangle, pulse, and arbitrary
More informationEE/CPE LABORATORY 1 LAB SAFETY & LAB EQUIPMENT USE TUTORIAL. by Ming Zhu UNIVERSITY OF NEVADA, LAS VEGAS 1. OBJECTIVE 2. COMPONENTS & EQUIPMENT
EE/CPE LABORATORY 1 LAB SAFETY & LAB EQUIPMENT USE TUTORIAL by Ming Zhu DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING UNIVERSITY OF NEVADA, LAS VEGAS 1. OBJECTIVE Introduce laboratory safety procedures
More informationLaboratory #4: Solid-State Switches, Operational Amplifiers Electrical and Computer Engineering EE University of Saskatchewan
Authors: Denard Lynch Date: Oct 24, 2012 Revised: Oct 21, 2013, D. Lynch Description: This laboratory explores the characteristics of operational amplifiers in a simple voltage gain configuration as well
More informationReal Analog - Circuits 1 Chapter 1: Lab Projects
Real Analog - Circuits 1 Chapter 1: Lab Projects 1.2.2: Dependent Sources and MOSFETs Overview: In this lab assignment, a qualitative discussion of dependent sources is presented in the context of MOSFETs
More informationLab 2: Linear and Nonlinear Circuit Elements and Networks
OPTI 380B Intermediate Optics Laboratory Lab 2: Linear and Nonlinear Circuit Elements and Networks Objectives: Lean how to use: Function of an oscilloscope probe. Characterization of capacitors and inductors
More informationElectronics Design Laboratory Lecture #10. ECEN 2270 Electronics Design Laboratory
Electronics Design Laboratory Lecture #10 Electronics Design Laboratory 1 Lessons from Experiment 4 Code debugging: use print statements and serial monitor window Circuit debugging: Re check operation
More informationUNIVERSITY OF CALIFORNIA, SANTA BARBARA Department of Electrical and Computer Engineering. ECE 2A & 2B Laboratory Equipment Information
UNIVERSITY OF CALIFORNIA, SANTA BARBARA Department of Electrical and Computer Engineering ECE 2A & 2B Laboratory Equipment Information Table of Contents Digital Multi-Meter (DMM)... 1 Features... 1 Using
More information332:223 Principles of Electrical Engineering I Laboratory Experiment #2 Title: Function Generators and Oscilloscopes Suggested Equipment:
RUTGERS UNIVERSITY The State University of New Jersey School of Engineering Department Of Electrical and Computer Engineering 332:223 Principles of Electrical Engineering I Laboratory Experiment #2 Title:
More informationFunction Generator Guide Tektronix AFG3102
Tektronix AFG3102 ersion 2008-Jan-1 Dept. of Electrical & Computer Engineering Portland State University Copyright 2008 Portland State University 1 Basic Information This guide provides basic instructions
More informationElectronic PRINCIPLES
MALVINO & BATES Electronic PRINCIPLES SEVENTH EDITION Chapter 22 Nonlinear Op-Amp Circuits Topics Covered in Chapter 22 Comparators with zero reference Comparators with non-zero references Comparators
More information1.0 Introduction to VirtualBench
Table of Contents 1.0 Introduction to VirtualBench... 3 1. 1 VirtualBench in the Laboratory... 3 1.2 VirtualBench Specifications... 4 1.3 Introduction to VirtualBench Getting Started Guide Lab Exercises...
More informationBasic Communication Laboratory Manual. Shimshon Levy&Harael Mualem
Basic Communication Laboratory Manual Shimshon Levy&Harael Mualem September 2006 CONTENTS 1 The oscilloscope 2 1.1 Objectives... 2 1.2 Prelab... 2 1.3 Background Theory- Analog Oscilloscope...... 3 1.4
More informationExperiment #6: Biasing an NPN BJT Introduction to CE, CC, and CB Amplifiers
SCHOOL OF ENGINEERING AND APPLIED SCIENCE DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING ECE 2115: ENGINEERING ELECTRONICS LABORATORY Experiment #6: Biasing an NPN BJT Introduction to CE, CC, and CB
More informationRIGOL Data Sheet. DS1000E, DS1000D Series Digital Oscilloscopes DS1102E, DS1052E, DS1102D, DS1052D. Product Overview. Easy to Use Design.
RIGOL Data Sheet DS1000E, DS1000D Series Digital Oscilloscopes DS1102E, DS1052E, DS1102D, DS1052D Product Overview The DS1000E, DS1000D series instruments are economical, high-performance digital oscilloscopes.
More informationEE 210: CIRCUITS AND DEVICES
EE 210: CIRCUITS AND DEVICES LAB #3: VOLTAGE AND CURRENT MEASUREMENTS This lab features a tutorial on the instrumentation that you will be using throughout the semester. More specifically, you will see
More informationUCE-DSO210 DIGITAL OSCILLOSCOPE USER MANUAL. FATIH GENÇ UCORE ELECTRONICS REV1
UCE-DSO210 DIGITAL OSCILLOSCOPE USER MANUAL FATIH GENÇ UCORE ELECTRONICS www.ucore-electronics.com 2017 - REV1 Contents 1. Introduction... 2 2. Turn on or turn off... 3 3. Oscilloscope Mode... 3 3.1. Display
More informationEE 330 Laboratory 8 Discrete Semiconductor Amplifiers
EE 330 Laboratory 8 Discrete Semiconductor Amplifiers Fall 2018 Contents Objective:...2 Discussion:...2 Components Needed:...2 Part 1 Voltage Controlled Amplifier...2 Part 2 A Nonlinear Application...3
More informationEE 210: CIRCUITS AND DEVICES
EE 210: CIRCUITS AND DEVICES OPERATIONAL AMPLIFIERS PART II This is the second of two laboratory sessions that provide an introduction to the op amp. In this session you will study three amplifiers designs:
More informationEE 233 Circuit Theory Lab 3: First-Order Filters
EE 233 Circuit Theory Lab 3: First-Order Filters Table of Contents 1 Introduction... 1 2 Precautions... 1 3 Prelab Exercises... 2 3.1 Inverting Amplifier... 3 3.2 Non-Inverting Amplifier... 4 3.3 Integrating
More informationEE 230. Electronic Circuits and Systems. Randy Geiger 2133 Coover
EE 230 Electronic Circuits and Systems Randy Geiger 2133 Coover rlgeiger@iastate.edu 294-7745 Course Description Linear Systems Frequency domain characterization of electronic circuits and systems transfer
More informationECE159H1S University of Toronto 2014 EXPERIMENT #2 OP AMP CIRCUITS AND WAVEFORMS ECE159H1S
ECE159H1S University of Toronto 2014 EXPERIMENT #2 OP AMP CIRCUITS AND WAVEFORMS ECE159H1S OBJECTIVES: To study the performance and limitations of basic op-amp circuits: the inverting and noninverting
More informationAmplitude Modulation Methods and Circuits
Amplitude Modulation Methods and Circuits By: Mark Porubsky Milwaukee Area Technical College Electronic Technology Electronic Communications Milwaukee, WI Purpose: The various parts of this lab unit will
More informationEK307 Passive Filters and Steady State Frequency Response
EK307 Passive Filters and Steady State Frequency Response Laboratory Goal: To explore the properties of passive signal-processing filters Learning Objectives: Passive filters, Frequency domain, Bode plots
More informationMINUTES OF PRE BID MEETING
MINUTES OF PRE BID MEETING Tender for Supply, Delivery, Installation & Commissioning of Equipment for Department of Engineering Technology, Faculty of Technological Studies Tender No : UWU/AHEAD/18/TS/ET/02
More informationECE3204 D2015 Lab 1. See suggested breadboard configuration on following page!
ECE3204 D2015 Lab 1 The Operational Amplifier: Inverting and Non-inverting Gain Configurations Gain-Bandwidth Product Relationship Frequency Response Limitation Transfer Function Measurement DC Errors
More informationLab 1: Non-Ideal Operational Amplifier and Op-Amp Circuits
Lab 1: Non-Ideal Operational Amplifier and Op-Amp Circuits 1. Learning Outcomes In this lab, the students evaluate characteristics of the non-ideal operational amplifiers. Students use a simulation tool
More informationMAE106 Laboratory Exercises Lab # 1 - Laboratory tools
MAE106 Laboratory Exercises Lab # 1 - Laboratory tools University of California, Irvine Department of Mechanical and Aerospace Engineering Goals To learn how to use the oscilloscope, function generator,
More informationECE 2274 Lab 1 (Intro)
ECE 2274 Lab 1 (Intro) Richard Dumene: Spring 2018 Revised: Richard Cooper: Spring 2018 Forward (DO NOT TURN IN) The purpose of this lab course is to familiarize you with high-end lab equipment, and train
More informationDual Channel Function/Arbitrary Waveform Generators 4050 Series
Data Sheet Dual Channel Function/Arbitrary Waveform Generators The Dual Channel Function/Arbitrary Waveform Generators are capable of generating stable and precise sine, square, triangle, pulse, and arbitrary
More informationENE/EIE 211 : Electronic Devices and Circuit Design II Lecture 1: Introduction
ENE/EIE 211 : Electronic Devices and Circuit Design II Lecture 1: Introduction 1/14/2018 1 Course Name: ENE/EIE 211 Electronic Devices and Circuit Design II Credits: 3 Prerequisite: ENE/EIE 210 Electronic
More informationEducator s Oscilloscope Training Kit for Agilent InfiniiVision X-Series Oscilloscopes
Educator s Oscilloscope Training Kit for Agilent InfiniiVision X-Series Oscilloscopes Data Sheet Oscilloscope training tools created specifically for electrical engineering and physics undergraduate students
More informationLab 9: Operational amplifiers II (version 1.5)
Lab 9: Operational amplifiers II (version 1.5) WARNING: Use electrical test equipment with care! Always double-check connections before applying power. Look for short circuits, which can quickly destroy
More informationElectronics. RC Filter, DC Supply, and 555
Electronics RC Filter, DC Supply, and 555 0.1 Lab Ticket Each individual will write up his or her own Lab Report for this two-week experiment. You must also submit Lab Tickets individually. You are expected
More informationExperiment # 1 Introduction to Lab Equipment
Experiment # 1 Introduction to Lab Equipment 1. Synopsis: In this introductory lab, we will review the basic concepts of digital logic design and learn how to use the equipment available in the laboratory.
More informationB. Equipment. Advanced Lab
Advanced Lab Measuring Periodic Signals Using a Digital Oscilloscope A. Introduction and Background We will use a digital oscilloscope to characterize several different periodic voltage signals. We will
More informationOPERATIONAL AMPLIFIERS LAB
1 of 6 BEFORE YOU BEGIN PREREQUISITE LABS OPERATIONAL AMPLIFIERS LAB Introduction to Matlab Introduction to Arbitrary/Function Generator Resistive Circuits EXPECTED KNOWLEDGE Students should be familiar
More informationLaboratory Final Design Project. PWM DC Motor Speed Control
Laboratory Final Design Project PWM DC Motor Speed Control Bowen Wang, Siyang Xia, Renhao Xie, E E 331 Lab, Winter 2013 TABLE OF CONTENTS Purpose of project, features, ratings.
More informationFig. 1. NI Elvis System
Lab 2: Introduction to I Elvis Environment. Objectives: The purpose of this laboratory is to provide an introduction to the NI Elvis design and prototyping environment. Basic operations provided by Elvis
More informationMiniproject: AM Radio
Objective UNIVERSITY OF CALIFORNIA AT BERKELEY College of Engineering Department of Electrical Engineering and Computer Sciences EE05 Lab Experiments Miniproject: AM Radio Until now, the labs have focused
More informationDigital Storage Oscilloscopes Models 2540B, 2542B, 2540B-GEN, 2542B-GEN
Data Sheet Digital Storage Oscilloscopes Models 2540B, 2542B, 2540B-GEN, 2542B-GEN The 2540B, 2542B, 2540B-GEN, and 2542B-GEN dual channel 60 MHz and 100 MHz digital storage oscilloscopes deliver performance
More information0. Introduction to Microelectronic Circuits
0. Introduction to Microelectronic Circuits S. S. Dan and S. R. Zinka Department of Electrical & Electronics Engineering BITS Pilani, Hyderbad Campus January 18, 2016 Outline 1 Introduction 2 Course Contents
More information