Background Theory and Simulation Practice
|
|
- Blake Newman
- 6 years ago
- Views:
Transcription
1 CAD and Simulation Objectives Experiment Topic: CAD and Simulation PSpice 9.1 Student Version To obtain your free copy of the software and user s guide, go to Electronics Lab website ( ). To investigate the use of the standard circuit simulation tool, PSPice, in the analysis of both time and frequency responses of the circuits. Background Theory and Simulation Practice SPICE (Simulation Program with Integrated Circuit Emphasis) is a general-purpose electronic circuit simulator based on nodal analysis approach. It was developed in the early 1970's at the University of California at Berkeley. Spice software was originally written in FORTRAN language and it was designed to run on a large mainframe computer. In 1984, PSPice (PC-based Spice) developed by MicroSim Corporation was the first commercial Spice program running on personal computer to gain wide acceptance in both industry and academic. In late 1997 and early 1998, OrCAD Systems Corporation and MicroSim Corporation merged a business to be a supplier of analog and mixed-signal simulation software for designing printed circuit board systems. PSpice is the most popular circuit simulator on the market today. The software package is used by students or educators in classroom, and also engineers or technicians on the advanced job in professional level. In-charge Faculty Staff: <none> 8-1
2 Introduction to PSPICE 1. Open OrCAD Capture window by click on Capture Student icon (Start \ All Programs \ PSpice Student \ Capture Student). Figure 1 OrCAD Capture window 2. Create a new project by click on File \ New \ Project button. Fill in as follows. Enter project Name, e.g. circuit 0. Select Analog or Mixed A/D. Enter folder Location, e.g. C:\Program Files\OrCAD_Demo\550711, then click OK. Figure 2 New Project dialog box In-charge Faculty Staff: <none> 8-2
3 3. Select Create a blank project, then click OK. Figure 3 Create PSpice Project dialog box 4. This is OrCAD Capture window. Figure 4 OrCAD Capture window In-charge Faculty Staff: <none> 8-3
4 Example Theory Figure 5 RL circuit Inductance is the opposition to changing current. The relationship is expressed by where is the average voltage across the inductor, is an inductance constant, and is the current. For sinusoidal response, sin where angular frequency 2, cos sin (1) (2) where. Therefore the voltage is another sine wave and it leads the current by 90. In-charge Faculty Staff: <none> 8-4
5 Simulation I 1. Draw the circuit. 1.1) Place voltage source - Click Place Part button on the right Tool Palette. - Click Add Library and add library SOURCE (C:\Program Files\OrCAD_Demo\Capture\Library\Pspice\source.olb). - Select VPWL (Voltage Piecewise Linear) part and click OK. - Place VPWL part on the schematic window Note : To end the part placement, click right and select End Mode. To rotate the part, press Ctrl+R. Figure 6 Add Library and Place Part 1.2) By following the previous steps, - Place R (Resistor) part from library ANALOG. - Place L (Inductor) part from library ANALOG. 1.3) Place ground - Click Place Ground button on the right Tool Palette. - Select 0 part and click OK. - Place 0 part on the schematic window. In-charge Faculty Staff: <none> 8-5
6 Figure 7 Place Ground Figure 8 Components on the schematic 2. Wire the components - Click Place Wire button on the right Tool Palette. - Drag the wire to complete wiring. Note : To end the wire placement, click right and select End Wire. Figure 9 Wired components on the schematic 3. Set the component values - Double click on the attributes of R part and L part to open Display Properties window. - Change Value (R = and L = 100 mh) and click OK. In-charge Faculty Staff: <none> 8-6
7 Figure 10 Display Properties windows for R part and L part - Double click on VPWL part to open Property Editor window and set the values as follows. T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 0ms 1ms 1.001ms 2ms 2.001ms 3ms 3.001ms 4ms 4.001ms 5ms V1 V2 V3 V4 V5 V6 V7 V8 V9 V10 0V 0V 1V 1V 0V 0V -1V -1V 0V 0V Figure 11 Property Editor Figure 12 Complete circuit on the schematic 4. Place measurement probe - Click Voltage/Level Marker button and Current Marker button on Toolbar. - Place the markers. In-charge Faculty Staff: <none> 8-7
8 5. Set simulation parameters Figure 13 Place probes - Click New Simulation Profile button on Toolbar to open New Simulation dialog box. - Enter simulation Name, e.g. circuit 0, and click Create to open Simulation Setting window. - Select Analysis type: Time Domain (Transient). - Set Run to time: 5ms. - Set Maximum step size: 0.001ms. - To edit the setting, click Edit Simulation Settings button on Toolbar. Figure 14 New Simulation dialog box and Simulation Settings window 6. Run the simulation - Click Run PSpice button on Toolbar. - You can add Y axis by Plot \ Add Y Axis. - You can set axis range by Plot \ Axis Setting. In-charge Faculty Staff: <none> 8-8
9 Figure 15 Axis Setting windows Figure 16 Simulated circuit on the schematic Figure 17 Simulation result In-charge Faculty Staff: <none> 8-9
10 Simulation II 1. Draw the same circuit but change VPWL part to VSIN part. Set offset voltage VOFF = 0, amplitude VAMPL = 5V, and frequency FREQ = 1k. 2. Simulate the circuit Figure 18 Simulated circuit (VSIN source) on the schematic Figure 17 Simulation result (VSIN source) In-charge Faculty Staff: <none> 8-10
11 Procedure 1. Comparator circuit Theory Op-amp comparator has a well balanced difference input and a very high gain. When the non-inverting input (V Input ) is at a higher voltage than the inverting input (V Reference ), the high gain of the op-amp causes the output to saturate at the highest positive voltage it can output. When the non-inverting input drops below the inverting input, the output saturates at the most negative voltage it can output. The op-amp's output voltage is limited by the supply voltage. +15 V V Input V Reference + 15 V R Load V Output Voltage Figure 18 Non-inverting comparator circuit V Reference V Input V Output Time Figure 19 Comparator circuit result 1.1) Design square wave generator using comparator circuit. - Input signal is 2sin Output signal is 0-10 V. - Duty circle of output signal is 50%. 1.2) Simulate the circuit and show the comparison of input signal and output signal. - For op-amp part, select LM324 part from library EVAL. 1.3) Discuss on the theoretical result and the simulation result. In-charge Faculty Staff: <none> 8-11
12 2. Passive filter Theory Passive filters are based on combinations of resistors (R), inductors (L) and capacitors (C). They are passive because they do not depend on an external power supply and they do not contain active components such as op-amp. The cut-off frequency is the frequency that the output voltage is decreased to 70.7% of the input voltage ( or 20 log(v Output / V Input ) = 3 db ). RL-Lowpass-Filter RL-Highpass-Filter 1 2 RC-Lowpass-Filter 1 2 RC-Highpass-Filter Figure 20 Passive filters V Output V Output Low-Pass High-Pass f Cut-Off Frequency Frequency Figure 21 Frequency response of low-pass filter and high-pass filter 2.1) Design passive high-pass filter. - Cut-off frequency of the filter is 100 khz. - Input signal is 1-V Peak-to-Peak sinusoidal wave. f Cut-Off In-charge Faculty Staff: <none> 8-12
13 2.2) Simulate the circuit and show the frequency response. - For voltage source, select VAC part from library SOURCE. - For simulation setting, select Analysis type: AC Sweep/Noise. - Set Start Frequency and End Frequency up to your design 2.3) Discuss on the theoretical result and the simulation result 3. Active filter Theory The main disadvantage of passive filters is that the output voltage is less than that of the input and the load impedance affects the filters characteristics. To control this loss of signal, active Filters containing active components such as operational amplifiers are used. They draw their power from an external power source and use it to boost or amplify the output voltage. 1 st Order-Lowpass-Filter 1 st Order-Highpass-Filter nd Order-Lowpass-Filter 2 nd Order-Highpass-Filter Figure 21 Active filters 3.1) Design active low-pass filter. - Cut-off frequency of the filter is 100 khz. - Input signal is 1-V Peak-to-Peak sinusoidal wave. In-charge Faculty Staff: <none> 8-13
14 3.2) Simulate the circuit and show the frequency response. 2.3) Discuss on the theoretical result and the simulation result 4. Choose your own circuit 4.1) Design your own circuit and write its theory. 4.2) Simulate the circuit and show the simulation result. 4.3) Discuss on the theoretical result and the simulation result In-charge Faculty Staff: <none> 8-14
14:332:223 Principles of Electrical Engineering I Instructions for using PSPICE Tools Sharanya Chandrasekar February 1, 2006
14:332:223 Principles of Electrical Engineering I Instructions for using PSPICE Tools Sharanya Chandrasekar February 1, 2006 1. Getting Started PSPICE is available on the ECE Computer labs in EE 103, DSV
More informationEXPERIMENT NUMBER 10 TRANSIENT ANALYSIS USING PSPICE
EXPERIMENT NUMBER 10 TRANSIENT ANALYSIS USING PSPICE Objective: To learn to use a circuit simulator package for plotting the response of a circuit in the time domain. Preliminary: Revise laboratory 8 to
More informationSince transmission lines can be modeled using PSpice, you can do your analysis by downloading the student version of this excellent program.
PSpice Analysis Since transmission lines can be modeled using PSpice, you can do your analysis by downloading the student version of this excellent program. PSpice can be downloaded from the following
More informationIntroduction to SPICE. Simulator of Electronic devices
Introduction to SPICE Simulator of Electronic devices Main steps: Download Instalation Open OrCAD capture CIS Lite Create a circuit. Place parts. Design a Simulation Profile Run PSpice F11 View simulation
More informationEE 210 Lab Exercise #3 Introduction to PSPICE
EE 210 Lab Exercise #3 Introduction to PSPICE Appending 4 in your Textbook contains a short tutorial on PSPICE. Additional information, tutorials and a demo version of PSPICE can be found at the manufacturer
More informationPSPICE SIMULATIONS WITH THE RESONANT INVERTER POWER ELECTRONICS COLORADO STATE UNIVERSITY. Created by Colorado State University student
PSPICE SIMULATIONS WITH THE RESONANT INVERTER POWER ELECTRONICS COLORADO STATE UNIVERSITY Created by Colorado State University student Page 1 of 13 PURPOSE: The purpose of this lab is to simulate the resonant
More informationIntroduction to PSpice
Electric Circuit I Lab Manual 4 Session # 5 Introduction to PSpice 1 PART A INTRODUCTION TO PSPICE Objective: The objective of this experiment is to be familiar with Pspice (learn how to connect circuits,
More informationEngineering 3821 Fall Pspice TUTORIAL 1. Prepared by: J. Tobin (Class of 2005) B. Jeyasurya E. Gill
Engineering 3821 Fall 2003 Pspice TUTORIAL 1 Prepared by: J. Tobin (Class of 2005) B. Jeyasurya E. Gill 2 INTRODUCTION The PSpice program is a member of the SPICE (Simulation Program with Integrated Circuit
More informationIntroduction to OrCAD. Simulation Program With Integrated Circuits Emphasis.
Islamic University of Gaza Faculty of Engineering Electrical Engineering department Digital Electronics Lab (EELE 3121) Eng. Mohammed S. Jouda Eng. Amani S. abu reyala Experiment 1 Introduction to OrCAD
More informationA Brief Handout for Introduction to
A Brief Handout for Introduction to Electric cal Engineering Course This handout is a compilation of PSPICE, A Brief Primer, Department of Electrical and Systems Engineering, University of Pennsylvania
More informationENEE207 Electric Circuits Lab Manual
ENEE207 Electric Circuits Lab Manual Department of Engineering, Physical & Computer Sciences Montgomery College Version 3 Copyright Lan Xiang (Do not distribute without permission) 1 TABLE OF CONTENTS
More informationChapter 12: Electronic Circuit Simulation and Layout Software
Chapter 12: Electronic Circuit Simulation and Layout Software In this chapter, we introduce the use of analog circuit simulation software and circuit layout software. I. Introduction So far we have designed
More informationEE 2274 RC and Op Amp Circuit Completed Prior to Coming to Lab. Prelab Part I: RC Circuit
EE 2274 RC and Op Amp Circuit Completed Prior to Coming to Lab Prelab Part I: RC Circuit 1. Design a high pass filter (Fig. 1) which has a break point f b = 1 khz at 3dB below the midband level (the -3dB
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 informationFACULTY OF ENGINEERING LAB SHEET
FACULTY OF ENGINEERING LAB SHEET CIRCUITS AND SIGNALS EEL 2186 TRIMESTER 1 (218/219) -Circuit analysis using ORCAD PSpice *Note: You will be given an assessment sheet during the lab session to be completed
More informationBANGLADESH UNIVERSITY OF ENGINEERING & TECHNOLOGY
BANGLADESH UNIVERSITY OF ENGINEERING & TECHNOLOGY Electronics Circuits II Laboratory (EEE 208) Simulation Experiment No. 02 Study of the Characteristics and Application of Operational Amplifier (Part B)
More informationWeek 4: Experiment 24. Using Nodal or Mesh Analysis to Solve AC Circuits with an addition of Equivalent Impedance
Week 4: Experiment 24 Using Nodal or Mesh Analysis to Solve AC Circuits with an addition of Equivalent Impedance Lab Lectures You have two weeks to complete Experiment 27: Complex Power 2/27/2012 (Pre-Lab
More informationEXPERIMENT NUMBER 8 Introduction to Active Filters
EXPERIMENT NUMBER 8 Introduction to Active Filters i-1 Preface: Preliminary exercises are to be done and submitted individually. Laboratory hardware exercises are to be done in groups. This laboratory
More informationLaboratory #2 PSpice Analyses
Laboratory #2 PSpice Analyses I. Objectives 1. Know the development of SPICE. 2. Learn to install the PSpice software. 3. Learn to use the Capture CIS to draw circuit. 4. Learn to use the four analyses
More informationElectronics I LAB. Lab 1: Lab 1 : Introduction to PsPise
Electronics I LAB Lab 1: Lab 1 : Introduction to PsPise 1-Introduction to PsPise : SPICE (Simulation Program for Integrated Circuits Emphasis.) is a po werful general purpo se analog and mixed-mode circuit
More informationFACULTY OF ENGINEERING LAB SHEET
FACULTY OF ENGINEERING LAB SHEET CIRCUITS AND SIGNALS EEL 286 TRIMESTER (26/27) -Circuit analysis using ORCAD PSpice Experiment : Circuit analysis using ORCAD Pspice PRECAUTIONARY STEPS:. Read this experiment
More informationET 304A Laboratory Tutorial-Circuitmaker For Transient and Frequency Analysis
ET 304A Laboratory Tutorial-Circuitmaker For Transient and Frequency Analysis All circuit simulation packages that use the Pspice engine allow users to do complex analysis that were once impossible to
More informationLIST OF EXPERIMENTS. Sl. No. NAME OF THE EXPERIMENT Page No.
LIST OF EXPERIMENTS u Sl. No. NAME OF THE EXPERIMENT Page No. 1 2 3 4 Simulation of Transient response of RLC Circuit To an input (i) step (ii) pulse and(iii) Sinusoidal signals Analysis of Three Phase
More informationGetting Started with Qucs
Getting Started with Qucs Graham Edge University of Toronto After downloading Qucs, installing it, and running for the first time you should see a window that looks something like this: The large yellow
More informationECE 201 LAB 6 INTRODUCTION TO SPICE/PSPICE
Version 1.1 1 of 33 BEFORE YOU BEGIN PREREQUISITE LABS Resistive Circuits EXPECTED KNOWLEDGE ECE 201 LAB 6 INTRODUCTION TO SPICE/PSPICE Ohm's Law: v = ir Node Voltage and Mesh Current Methods of Circuit
More informationOrCAD PSpice - Tutorial. TA: 黃玉龍
OrCAD PSpice - Tutorial TA: 黃玉龍 r9994320@ntu.edu.tw Outline 2 Introduction Preparation Schematic Simulation Conclusion Introduction 3 OrCAD PSpice is developed by Cadence Analog circuit simulation tool
More informationLab 4: Analysis of the Stereo Amplifier
ECE 212 Spring 2010 Circuit Analysis II Names: Lab 4: Analysis of the Stereo Amplifier Objectives In this lab exercise you will use the power supply to power the stereo amplifier built in the previous
More informationIntroduction to LT Spice IV with Examples
Introduction to LT Spice IV with Examples 400D - Fall 2015 Purpose Part of Electronics & Control Division Technical Training Series by Nicholas Lombardo The purpose of this document is to give a basic
More informationSPICE FOR POWER ELECTRONICS AND ELECTRIC POWER
SPICE FOR POWER ELECTRONICS AND ELECTRIC POWER SECOND EDITION MUHAMMAD H. RASHID University of West Florida Pensacola, Florida, U.S.A. HASAN M. RASHID University of Florida Gainesville, Florida, U.S.A.
More informationLTSpice Basic Tutorial
Index: I. Opening LTSpice II. Drawing the circuit A. Making Sure You Have a GND B. Getting the Parts C. Placing the Parts D. Connecting the Circuit E. Changing the Name of the Part F. Changing the Value
More informationAn Introductory Guide to Circuit Simulation using NI Multisim 12
School of Engineering and Technology An Introductory Guide to Circuit Simulation using NI Multisim 12 This booklet belongs to: This document provides a brief overview and introductory tutorial for circuit
More informationLaboratory Project 1: AC Circuit Measurements and Simulation
Objectives The purpose of this laboratory project is to introduce to equipment, measurement techniques, and simulations commonly used in C circuit analysis. In this laboratory session, each student will:
More informationRevised: Summer 2010
EE 2274 PRE-LAB EXPERIMENT 5 DIODE OR GATE & CLIPPING CIRCUIT COMPLETE PRIOR TO COMING TO LAB Part I: 1. Design a diode, Figure 1 OR gate in which the maximum input current,, Iin is less than 5mA. Show
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 informationLab Reference Manual. ECEN 326 Electronic Circuits. Texas A&M University Department of Electrical and Computer Engineering
Lab Reference Manual ECEN 326 Electronic Circuits Texas A&M University Department of Electrical and Computer Engineering Contents 1. Circuit Analysis in PSpice 3 1.1 Transient and DC Analysis 3 1.2 Measuring
More informationEK307 Active Filters and Steady State Frequency Response
EK307 Active Filters and Steady State Frequency Response Laboratory Goal: To explore the properties of active signal-processing filters Learning Objectives: Active Filters, Op-Amp Filters, Bode plots Suggested
More informationCir cuit s 212 Lab. Lab #7 Filter Design. Introductions:
Cir cuit s 22 Lab Lab #7 Filter Design The purpose of this lab is multifold. This is a three-week experiment. You are required to design a High / Low Pass filter using the LM38 OP AMP. In this lab, you
More informationThe analysis of the linear voltage regulators
The analysis of the linear voltage regulators 1. Theoretical aspects The voltage regulator is an electronic circuit which, ideally, it provides a constant output voltage. The value of the output voltage
More informationOperational Amplifiers: Part II
1. Introduction Operational Amplifiers: Part II The name "operational amplifier" comes from this amplifier's ability to perform mathematical operations. Three good examples of this are the summing amplifier,
More informationSchematic Capture The final schematic design is shown below.
Creating a circuit with In this part of the workshop you will be creating the schematic for a lowpass filter including the parts necessary for simulating the circuit with PSpice. Table of Contents Creating
More informationECE 2274 Pre-Lab for Experiment # 4 Diode Basics and a Rectifier Completed Prior to Coming to Lab
Part I I-V Characteristic Curve ECE 2274 Pre-Lab for Experiment # 4 Diode Basics and a Rectifier Completed Prior to Coming to Lab 1. Construct the circuit shown in figure 4-1. Using a DC Sweep, simulate
More informationIntroduction to SwitcherCAD
Introduction to SwitcherCAD 1 PREFACE 1.1 What is SwitcherCAD? SwitcherCAD III is a new Spice based program that was developed for modelling board level switching regulator systems. The program consists
More informationEE-3010 Lab # 5 Simulation of Operational Amplifier Circuits
EE-3010 Lab # 5 Simulation of Operational Amplifier Circuits Objectives Investigation of amplifier circuits containing operational amplifiers. (Note: This is a two-part lab and may be done in two consecutive
More informationUsing LTSPICE to Analyze Circuits
Using LTSPICE to Analyze Circuits Overview: LTSPICE is circuit simulation software that automatically constructs circuit equations using circuit element models (built in or downloadable). In its modern
More informationSTUDY OF RC AND RL CIRCUITS Venue: Microelectronics Laboratory in E2 L2
EXPERIMENT #1 STUDY OF RC AND RL CIRCUITS Venue: Microelectronics Laboratory in E2 L2 I. INTRODUCTION This laboratory is about verifying the transient behavior of RC and RL circuits. You need to revise
More informationExperiments #7. Operational Amplifier part 1
Experiments #7 Operational Amplifier part 1 1) Objectives: The objective of this lab is to study operational amplifier (op amp) and its applications. We will be simulating and building some basic op-amp
More informationPSPICE T UTORIAL P ART I: INTRODUCTION AND DC ANALYSIS. for the Orcad PSpice Release 9.2 Lite Edition
PSPICE T UTORIAL P ART I: INTRODUCTION AND DC ANALYSIS for the Orcad PSpice Release 9.2 Lite Edition INTRODUCTION The Simulation Program with Integrated Circuit Emphasis (SPICE) circuit simulation tool
More informationLab #2 First Order RC Circuits Week of 27 January 2015
ECE214: Electrical Circuits Laboratory Lab #2 First Order RC Circuits Week of 27 January 2015 1 Introduction In this lab you will investigate the magnitude and phase shift that occurs in an RC circuit
More informationLaboratory 6. Lab 6. Operational Amplifier Circuits. Required Components: op amp 2 1k resistor 4 10k resistors 1 100k resistor 1 0.
Laboratory 6 Operational Amplifier Circuits Required Components: 1 741 op amp 2 1k resistor 4 10k resistors 1 100k resistor 1 0.1 F capacitor 6.1 Objectives The operational amplifier is one of the most
More informationLab 7 PSpice: Time Domain Analysis
Lab 7 PSpice: Time Domain Analysis OBJECTIVES 1. Use PSpice Circuit Simulator to simulate circuits containing capacitors and inductors in the time domain. 2. Practice using a switch, and a Pulse & Sinusoidal
More informationSPICE for Power Electronics and Electric Power
SPICE for Power Electronics and Electric Power Third Edition Muhammad H. Rashid Life Fellow IEEE /^0\ \Cf*' CRC Press I Taylor & Francis eis Crou Group Boca Raton London New York CRC Press is an imprint
More informationLab 6: Building a Function Generator
ECE 212 Spring 2010 Circuit Analysis II Names: Lab 6: Building a Function Generator Objectives In this lab exercise you will build a function generator capable of generating square, triangle, and sine
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 informationFlorida Atlantic University Biomedical Signal Processing Lab Experiment 2 Signal Transduction: Building an analog Electrocardiogram (ECG)
Florida Atlantic University Biomedical Signal Processing Lab Experiment 2 Signal Transduction: Building an analog Electrocardiogram (ECG) 1. Introduction: The Electrocardiogram (ECG) is a technique of
More informationPSIM SmartCtrl link. SmartCtrl Tutorial. PSIM SmartCtrl link Powersim Inc.
SmartCtrl Tutorial PSIM SmartCtrl link - 1 - Powersim Inc. SmartCtrl1 1 is a general-purpose controller design software specifically for power electronics applications. This tutorial is intended to guide
More informationDC and AC Circuits. Objective. Theory. 1. Direct Current (DC) R-C Circuit
[International Campus Lab] Objective Determine the behavior of resistors, capacitors, and inductors in DC and AC circuits. Theory ----------------------------- Reference -------------------------- Young
More informationExperiment Number 2. Revised: Fall 2018 PLECS RC, RL, and RLC Simulations
Experiment Number 2 Revised: Fall 2018 PLECS RC, RL, and RLC Simulations Preface: Experiment number 2 will be held in CLC room 105, 106, or 107. Your TA will let you know Preliminary exercises are to be
More informationMor M. Peretz Power Electronics Laboratory Department of Electrical and Computer Engineering Ben-Gurion University of the Negev, ISRAEL
Mor M. Peretz Power Electronics Laboratory Department of Electrical and Computer Engineering Ben-Gurion University of the Negev, ISRAEL [1] PSpice A/D simulation program allows to analyze electrical circuits
More informationElectric Circuit Fall 2015 Pingqiang Zhou. ShanghaiTech University. School of Information Science and Technology. Professor Pingqiang Zhou
ShanghaiTech University School of Information Science and Technology Professor Pingqiang Zhou LABORATORY 2 CAD Tools Guide Practical circuit design occurs in three stages: 1. Design of an appropriate circuit
More informationChapter 8. Chapter 9. Chapter 6. Chapter 10. Chapter 11. Chapter 7
5.5 Series and Parallel Combinations of 246 Complex Impedances 5.6 Steady-State AC Node-Voltage 247 Analysis 5.7 AC Power Calculations 256 5.8 Using Power Triangles 258 5.9 Power-Factor Correction 261
More informationLAB EXERCISE 3 FET Amplifier Design and Linear Analysis
ADS 2012 Workspaces and Simulation Tools (v.1 Oct 2012) LAB EXERCISE 3 FET Amplifier Design and Linear Analysis Topics: More schematic capture, DC and AC simulation, more on libraries and cells, using
More informationLABORATORY 3: Transient circuits, RC, RL step responses, 2 nd Order Circuits
LABORATORY 3: Transient circuits, RC, RL step responses, nd Order Circuits Note: If your partner is no longer in the class, please talk to the instructor. Material covered: RC circuits Integrators Differentiators
More informationSIMULATIONS OF LCC RESONANT CIRCUIT POWER ELECTRONICS COLORADO STATE UNIVERSITY. Modified in Spring 2006
SIMULATIONS OF LCC RESONANT CIRCUIT POWER ELECTRONICS COLORADO STATE UNIVERSITY Modified in Spring 2006 Page 1 of 27 PURPOSE: The purpose of this lab is to simulate the LCC circuit using MATLAB and CAPTURE
More informationAnsoft Designer Tutorial ECE 584 October, 2004
Ansoft Designer Tutorial ECE 584 October, 2004 This tutorial will serve as an introduction to the Ansoft Designer Microwave CAD package by stepping through a simple design problem. Please note that there
More informationExperiment Number 2. Revised: Summer 2013 PLECS RC, RL, and RLC Simulations
Preface: Experiment Number 2 Revised: Summer 2013 PLECS RC, RL, and RLC Simulations Preliminary exercises are to be done and submitted individually Laboratory simulation exercises are to be done individually
More informationLaboratory 9. Required Components: Objectives. Optional Components: Operational Amplifier Circuits (modified from lab text by Alciatore)
Laboratory 9 Operational Amplifier Circuits (modified from lab text by Alciatore) Required Components: 1x 741 op-amp 2x 1k resistors 4x 10k resistors 1x l00k resistor 1x 0.1F capacitor Optional Components:
More informationOrCAD 17.2 Pspice Tutorial. High-Speed Circuits & Systems Lab. Yonsei University
OrCAD 17.2 Pspice Tutorial High-Speed Circuits & Systems Lab. Yonsei University Installation Move to http://www.orcad.com/resources/orcaddownloads#demo Installation Click Download FREE-OrCAD 17.2 Lite
More informationClass #8: Experiment Diodes Part I
Class #8: Experiment Diodes Part I Purpose: The objective of this experiment is to become familiar with the properties and uses of diodes. We used a 1N914 diode in two previous experiments, but now we
More informationLAB 8: Activity P52: LRC Circuit
LAB 8: Activity P52: LRC Circuit Equipment: Voltage Sensor 1 Multimeter 1 Patch Cords 2 AC/DC Electronics Lab (100 μf capacitor; 10 Ω resistor; Inductor Coil; Iron core; 5 inch wire lead) The purpose of
More informationLaboratory Lecture 4
Gheorghe Asachi Technical University of Iasi Faculty of Electronics, Telecommunications and Information Technology Title of Discipline: Computer-Aided Analysis of Electronic Circuits Laboratory Lecture
More informationFig. 1-1 show the main window of Orcad Capture. Every project you work on will start from Orcad Capture. Fig. 1-1 Orcad Capture Main window.
T. K. Ha PSpice Lecture #1 1 Objective: By the end of this lecture, it is hope that the students will have a rudimentary knowledge of using and running PSpice. The student will be able to draw and edit
More informationResonant Frequency of the LRC Circuit (Power Output, Voltage Sensor)
72 Resonant Frequency of the LRC Circuit (Power Output, Voltage Sensor) Equipment List Qty Items Part Numbers 1 PASCO 750 Interface 1 Voltage Sensor CI-6503 1 AC/DC Electronics Laboratory EM-8656 2 Banana
More informationSimulating Circuits James Lamberti 5/4/2014
Simulating Circuits James Lamberti (jal416@lehigh.edu) 5/4/2014 There are many simulation and design platforms for circuits. The two big ones are Altium and Cadence. This tutorial will focus on Altium,
More informationPSpice Simulation. The target of computer-aided analysis is to determine the circuit currents and voltages everywhere in the circuit.
PSpice Simulation The target of computer-aided analysis is to determine the circuit currents and voltages everywhere in the circuit. For PSpice, the circuit is described by a text file called the netlist.
More informationWhen you have completed this exercise, you will be able to relate the gain and bandwidth of an op amp
Op Amp Fundamentals When you have completed this exercise, you will be able to relate the gain and bandwidth of an op amp In general, the parameters are interactive. However, in this unit, circuit input
More informationLABORATORY 2: Bridge circuits, Superposition, Thevenin Circuits, and Amplifier Circuits
LABORATORY 2: Bridge circuits, Superposition, Thevenin Circuits, and Amplifier Circuits Note: If your partner is no longer in the class, please talk to the instructor. Material covered: Bridge circuits
More informationAnalog Filters D R. T A R E K T U T U N J I P H I L A D E L P H I A U N I V E R S I T Y, J O R D A N
Analog Filters D. T A E K T U T U N J I P H I L A D E L P H I A U N I V E S I T Y, J O D A N 2 0 4 Introduction Electrical filters are deigned to eliminate unwanted frequencies Filters can be classified
More informationEE 435 Switched Capacitor Amplifiers and Filters. Lab 7 Spring 2014 R 2 V OUT V IN. (a) (b)
EE 435 Switched Capacitor Amplifiers and Filters Lab 7 Spring 2014 Amplifiers are widely used in many analog and mixed-signal applications. In most discrete applications resistors are used to form the
More informationCHAPTER 14. Introduction to Frequency Selective Circuits
CHAPTER 14 Introduction to Frequency Selective Circuits Frequency-selective circuits Varying source frequency on circuit voltages and currents. The result of this analysis is the frequency response of
More informationThe Series RLC Circuit and Resonance
Purpose Theory The Series RLC Circuit and Resonance a. To study the behavior of a series RLC circuit in an AC current. b. To measure the values of the L and C using the impedance method. c. To study the
More informationDepartment of Electrical & Computer Engineering Technology. EET 3086C Circuit Analysis Laboratory Experiments. Masood Ejaz
Department of Electrical & Computer Engineering Technology EET 3086C Circuit Analysis Laboratory Experiments Masood Ejaz Experiment # 1 DC Measurements of a Resistive Circuit and Proof of Thevenin Theorem
More informationHigh Current Amplifier
High Current Amplifier - Introduction High Current Amplifier High current amplifier is often a very useful piece of instrument to have in the lab. It is very handy for increasing the current driving capability
More informationExperiment 1 Signals, Instrumentation, Basic Circuits and Capture/PSpice
Experiment Signals, Instrumentation, Basic Circuits and Capture/PSpice Purpose: The objective of this experiment is to gain some experience with the electronic test and measuring equipment and the analysis
More informationSTATION NUMBER: LAB SECTION: Filters. LAB 6: Filters ELECTRICAL ENGINEERING 43/100 INTRODUCTION TO MICROELECTRONIC CIRCUITS
Lab 6: Filters YOUR EE43/100 NAME: Spring 2013 YOUR PARTNER S NAME: YOUR SID: YOUR PARTNER S SID: STATION NUMBER: LAB SECTION: Filters LAB 6: Filters Pre- Lab GSI Sign- Off: Pre- Lab: /40 Lab: /60 Total:
More informationLab 3: Circuit Simulation with PSPICE
Page 1 of 11 Laboratory Goals Introduce text-based PSPICE as a design tool Create transistor circuits using PSPICE Simulate output response for the designed circuits Introduce the Curve Tracer functionality.
More informationLRC Circuit PHYS 296 Your name Lab section
LRC Circuit PHYS 296 Your name Lab section PRE-LAB QUIZZES 1. What will we investigate in this lab? 2. Figure 1 on the following page shows an LRC circuit with the resistor of 1 Ω, the capacitor of 33
More information1.5k. (a) Resistive Circuit (b) Capacitive Circuit
Objective Information The purposes of this laboratory project are to become further acquainted with the use of an oscilloscope, and to observe the behavior of resistor and resistor capacitor circuits.
More informationPhysics 310 Lab 6 Op Amps
Physics 310 Lab 6 Op Amps Equipment: Op-Amp, IC test clip, IC extractor, breadboard, silver mini-power supply, two function generators, oscilloscope, two 5.1 k s, 2.7 k, three 10 k s, 1 k, 100 k, LED,
More informationWeek 8 AM Modulation and the AM Receiver
Week 8 AM Modulation and the AM Receiver The concept of modulation and radio transmission is introduced. An AM receiver is studied and the constructed on the prototyping board. The operation of the AM
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 informationENGR4300 Test 3A Fall 2002
1. 555 Timer (20 points) Figure 1: 555 Timer Circuit For the 555 timer circuit in Figure 1, find the following values for R1 = 1K, R2 = 2K, C1 = 0.1uF. Show all work. a) (4 points) T1: b) (4 points) T2:
More informationGroup: Names: voltage calculated measured V out (w/o R 3 ) V out (w/ R 3 )
6.2 Laboratory Procedure / Summary Sheet Group: Names: An op amp requires connection to two different voltage levels from an external power supply, usually 15V and -15V, both of which can be provided by
More informationPSPICE A brief primer
PSPICE A brief primer Contents 1. Introduction 2. Use of PSpice with OrCAD Capture 2.1 Step 1: Creating the circuit in Capture 2.2 Step 2: Specifying the type of analysis and simulation BIAS or DC analysis
More informationUncovering a Hidden RCL Series Circuit
Purpose Uncovering a Hidden RCL Series Circuit a. To use the equipment and techniques developed in the previous experiment to uncover a hidden series RCL circuit in a box and b. To measure the values of
More informationExperiment 8: An AC Circuit
Experiment 8: An AC Circuit PART ONE: AC Voltages. Set up this circuit. Use R = 500 Ω, L = 5.0 mh and C =.01 μf. A signal generator built into the interface provides the emf to run the circuit from Output
More informationAssignment 11. 1) Using the LM741 op-amp IC a circuit is designed as shown, then find the output waveform for an input of 5kHz
Assignment 11 1) Using the LM741 op-amp IC a circuit is designed as shown, then find the output waveform for an input of 5kHz Vo = 1 x R1Cf 0 Vin t dt, voltage output for the op amp integrator 0.1 m 1
More informationEE-2302 Passive Filters and Frequency Response
EE2302 Passive Filters and Frequency esponse Objective he student should become acquainted with simple passive filters for performing highpass, lowpass, and bandpass operations. he experimental tasks also
More informationFREQUENCY RESPONSE AND PASSIVE FILTERS LABORATORY
FREQUENCY RESPONSE AND PASSIVE FILTERS LABORATORY In this experiment we will analytically determine and measure the frequency response of networks containing resistors, AC source/sources, and energy storage
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 informationECEN Network Analysis Section 3. Laboratory Manual
ECEN 3714----Network Analysis Section 3 Laboratory Manual LAB 07: Active Low Pass Filter Oklahoma State University School of Electrical and Computer Engineering. Section 3 Laboratory manual - 1 - Spring
More information