Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B: Resistors, Circuit Analysis, Voltage Dividers * Part.

Slides:

Advertisements

Similar presentations

OPTI 202L Lab #11 – Photoconductors and Basic Electrical Measurements Dr. Mike Nofziger Professor College of Optical Sciences University of Arizona Dr.

Advertisements

Chapter 7 Series-Parallel Circuits. Objectives Analyze series-parallel circuits Analyze loaded voltage dividers Analyze ladder networks Analyze a Wheatstone.

Professor Ahmadi， Xin Xu ECE 1020

Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves

Chapter 12 RL Circuits.

Series and Parallel Circuits Kirchoff’s Voltage and Current Laws Circuits 1 Fall 2005 Harding University Jonathan White.

Electronic Instrumentation Experiment 2 * Part A: Intro to Transfer Functions and AC Sweeps * Part B: Phasors, Transfer Functions and Filters * Part C:

Interactive Engineering Workshop Eng. Mageda Al-Moubarak Eng. Fadia El-ssa.

Some Concepts from the Labs 22 Feb RC Filter and LabVIEW lab Function generator and internal resistance Root-Mean-Square (rms) value of a sinusoidal.

Electronic Instrumentation Experiment 2 * Part A: Lissajous Figures and Agilent Software * Part B: Bridges, Capacitors and Sweeps * Part C: Strain Gauges.

ESE Lab Computer based Temperature Control Sid Deliwala, ESE Labs.

Project 3 Build an Astable Multivibrator

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

Electronic Instrumentation Experiment 6: Diodes * Part A: Diode I-V Characteristics * Part B: Rectifiers Part C: PN Junction Voltage Limitation Part D:

OPTI 202L Lab #11 – Photoconductors and Basic Electrical Measurements Dr. Mike Nofziger Professor College of Optical Sciences University of Arizona Dr.

Fundamentals of Electricity, Magnetism, and Electronics

Components, Quantities, and Units

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

Current, Resistance, and Simple Circuits.  A capacitor is a device used to store electrical energy.  There are two different ways to arrange circuit.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley Electricity Physics 102 Goderya Chapter(s): 22 and 23 Learning Outcomes:

REU/RET Optics Research Workshop 2014 Workshop #2 Basic Electronics Dr. Mike Nofziger Professor College of Optical Sciences University of Arizona Dr. Mike.

Introduction to Digital Multimeters

RLC Circuits. Ohm for AC  An AC circuit is made up with components. Power source Resistors Capacitor Inductors  Kirchhoff’s laws apply just like DC.

Electricity Define Electricity: Electrons: Short Circuit: Current: Battery: Voltage:

Instrumental Analysis Electrical Components and Circuits.

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

Purpose of Voltage Regulators

Concurrent Assessment DC Electronics 1 1.When you have a complete series circuit, is the current flow the same at every place in the circuit? 2.What is.

Forging new generations of engineers

Alternating Current Circuits. Resistance Capacitive Reactance, X C.

ELECTRIC CIRCUITS ECSE-2010 Spring 2003 Class 3. ASSIGNMENTS DUE Today (Thursday): Will introduce PSpice Activity 3-1 (In Class) using PSpice Will do.

Chapter 7 Electricity. What is Charge? Protons have a (+) charge Electrons have a (-) charge Charge (q) is measured in Coulombs The elementary charge.

Circuit Lab. Experiment-1 Int. To Circuit Components Lab. Devices and Voltage Measurement.

Lecture 17 AC circuits RLC circuits Transformer Maxwell.

+ Using Ohm’s Law to Build a Voltage Divider 1. + Learning Objectives Understand and demonstrate the engineering design process Use Ohm's Law as a tool.

Basic Electronics Ninth Edition Basic Electronics Ninth Edition ©2002 The McGraw-Hill Companies Grob Schultz.

Storey: Electrical & Electronic Systems © Pearson Education Limited 2004 OHT 15.1 Alternating Voltages and Currents  Introduction  Voltage and Current.

Chapter 34 Electric Current.

Electric Circuits.

ELECTRICITY D.C. stands for direct current which flows in one direction only (- to +) A.C.stands for alternating current which changes direction 50 times.

Basic Electronic Components.  An electronic component is any basic discrete device or physical entity in an electronic system used to affect electrons.

Engineering Science EAB_S_127 Electricity Chapter 2.

ELECTRIC CURRENTS. SIMPLE CIRCUIT What’s providing the energy? What’s “moving” in the circuit? What’s causing the movement? e.m.f. = Electromotive Force.

Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B: Resistors, Circuit Analysis, Voltage Dividers * Part.

Phasors and Kirchhoff’s Current Law

Electrical Current and Circuits How Electricity Gets To Where It Is Going.

Alternating Current Circuits. AC Sources  : angular frequency of AC voltage  V max : the maximum output voltage of AC source.

In this lesson, you will learn how to set up a Digital Multimeter (DMM) to perform various measurements Click on each question to learn more How is the.

Chapter 14 Physics A First Course Electricity. Electricity Electrical Systems 14.1 Series Circuits 14.2 Parallel Circuits 14.3 Electrical Power, AC, and.

Electricity and Electronics Base of Modern Technology.

Voltage Divider Circuits Input transducers Input transducers are devices that convert a change in physical conditions (for example, temperature) into a.

Impedance is the measure of the opposition that a circuit presents to the passage of a current when a voltage is applied. In quantitative terms, it is.

Electronics for Physical Computing Materials: capacitor, diode, LED, transistor, switch,resistor, relay, proto board, multimeter.

6.2 ELECTRONICS. CAPACITOR An electrical device used to store electrical charge.

Chapter 10 RC Circuits.

Transformers and Impedance. Review Two types of current: –ac –dc Two fundamental principles: –Moving electrons create magnetic fields –Moving or changing.

Chapter 14 Resistive AC Circuits. 2 Objectives –After completing this chapter, the student should be able to: Describe the phase relationship between.

RC Circuits (sine wave)

Electricity Definitions

Chapter 9 Sinusoids and Phasors

Circuit Introduction Section 1:

Electrical Engineering Lab I

Electrical Current & Circuits

One Thing at a Time Series Circuits.

Comparing Series and Parallel Circuits

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

What formula is used to calculate current in a circuit?

Resistance in Series and Parallel

Chapters 18 & 19 What is the definition of electric potential?

Presentation transcript:

Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B: Resistors, Circuit Analysis, Voltage Dividers * Part C: Capture/PSpice

Part A w Circuit Basics w Equipment w Sound Waves

Automobile Electronics w Previously all mechanical systems have become increasingly electronic w Over the past few years, for example, the automobile has begun to use more computers (microcontrollers) w How many microcontrollers are typically found in a modern automobile?

Automobile Electronics

Physical Model for a DC circuit

Physical Model for Resistance

Physics vs. Electronics

Ohm’s Law

Alternating Current Generators

AC Circuits

Review of Sinusoids

General form of the Sinusoid

DC Source E3631A TOGGLE OUTPUT ON/OFF ADJUST VOLTAGE LEVEL 0 to 6 VOLTSGROUND 0 to 25 VOLTS -25 to 0 VOLTS Do Not Use

Function Generator 33120A

Digital Multimeter 34401A

Oscilloscope 54600B

Impedance w Definition: a general measure of how a circuit affects the current through it. w Impedance = resistance + reactance w Impedance is used to refer to the behavior of circuits with resistors, capacitors and other components. w In a resistive circuit, impedance=resistance.

Equipment Impedances w Each measuring device changes the circuit when you use it. w The impedance of the device helps you understand how much. w Device Impedances Function Generator: 50 ohms ‘Scope: 1Meg ohms DMM (DC voltage): 10Meg ohms DMM (AC voltage): 1Meg ohms DMM (DC current): 5 ohms (negligible)

Effect of Impedance on Circuit

What to do

How Ears Work

Part B w Resistors w Circuit Analysis w Voltage Dividers

Combining Resistors in Series

Combining Resistors in Parallel

Reading Resistors

Measuring Voltage

Voltage Dividers

More on Voltage Dividers

Kirchoff’s Laws

Circuit Analysis (Kirchoff Method)

Circuit Analysis (Combination Method)

Protoboards

Part C w Capture/PSpice Circuit Analysis Software

Capture

Simulations

PSpice

Cursors

Adding Traces