CHARACTERISTICS OF OPERATIONAL AMPLIFIERS - II
|
|
- Frederick Walker
- 6 years ago
- Views:
Transcription
1 CHARACTERISTICS OF OPERATIONAL AMPLIFIERS - II OBJECTIVE The purpose of the experiment is to examine non-ideal characteristics of an operational amplifier. The characteristics that are investigated include common-mode rejection ratio, slew rate and Gain-bandwidth product and frequency response. EQUIPMENT REQUIRED 741 Op-amp 100Ω, 100kΩ, 220kΩ resistor, ¼ W 5 kω, ¼ W potentiometer 0-30 V, 1A dc dual regulated power supply 30 MHz Oscilloscope 3 MHz Function Generator Digital Multimeter Breadboard THEORY The CMRR of an op-amp is the ratio of differential voltage gain to common-mode voltage gain. Slew rate is the maximum rate at which output voltage can be distorted. An op-amp s bandwidth is the highest undistorted frequency an op-amp can deliver. It is directly proportional to slew rate and inversely proportional to amplitude. FORMULA FURTHER READING 1. Ramakand A. Gayakwad, Op-amps and linear integrated circuits, PHI learning, R.M.Marston, Op-amp Circuits Manual, Newnes, Robert Diffenderfer, Electronic Devices: Systems & Applications, Cengage Learning,
2 CIRCUIT DIAGRAM DESIGN Inverting Amplifier Closed loop gain, ACL = Vo/Vin = -Rf/R1 Required closed loop gain = -10 Choose R1=1kΩ Non-inverting Amplifier Closed loop gain, ACL = Vo/Vin = 1+Rf/R1 Required closed loop gain = 11 Select R1=1kΩ Voltage follower Voltage follower is unity gain amplifier; closed loop gain required is 1. Consider a non-inverting amplifier. So the ratio Rf/R1 should be zero. Hence Rf = 0. PRACTICE PROCEDURE CMMR 1. Construct the circuit as shown in figure1. 2. Apply a dc voltage of 1V as input to the circuit. 22
3 3. Measure the output voltage. 4. Calculate CMRR Repeat the above steps for an input sinusoidal signal of 1Vp-p, 1 khz. Slew rate and Bandwidth 1. Construct the circuit as shown in figure2. 2. Apply sinusoidal signal of 2Vp-p, 1 khz. 3. Increase the frequency until the output gets distorted. 4. Measure the peak output amplitude and frequency. 5. Calculate the slew rate Repeat the above steps for square wave input. Inverting Amplifier Closed loop gain 1. Construct the circuit as per the diagram shown in Figure3. 2. Apply 100mVp-p, 1 khz sinusoidal input. 3. Observe the input and output waveforms simultaneously. Note the phase of the output with respect to input. 4. Calculate the closed loop voltage gain. Frequency Response 6. Increase the frequency until the output voltage reaches times the input (cut-off frequency). Record the frequency. 7. Plot the frequency response using semi-log sheet. Non-inverting Amplifier Closed loop gain 1. Construct the circuit as per the diagram shown in Figure2. 2. Apply 100mVp-p, 1 khz sinusoidal input. 3. Observe the input and output waveforms simultaneously. Note the phase of the output with respect to input. 4. Calculate the closed loop voltage gain. Gain-Bandwidth product 6. Increase the frequency until the output voltage reaches times the input (cut-off frequency). Record the frequency. 7. Calculate the gain-bandwidth product. 8. Plot the frequency response using semi-log sheet. Voltage follower 1. Construct the circuit as per the diagram shown in Figure3. 2. Apply 1Vp-p, 1 khz sinusoidal input. 3. Observe the input and output waveforms simultaneously. 23
4 PRELAB 1. Create gain Vs frequency plot of an op-amp using Spice tool. Analyze the bandwidth of the amplifier. 2. Design and simulate an Inverting amplifier with gain of 10 using 741 op-amp. Observe the output waveforms and plot the frequency response. Calculate the bandwidth and comment on the results obtained. 3. Design and simulate a non-inverting amplifier with gain of 10 using 741 op-amp. Observe the output waveforms and plot the frequency response. Calculate the bandwidth and comment on the results obtained. 24
5 Exp. No.: Date: OBJECTIVE CHARACTERISTICS OF OPERATIONAL AMPLIFIERS - II OBSERVATION CMMR Circuit Diagram Inference 25
6 Slew rate and Bandwidth Circuit Diagram Gain-Bandwidth Product, Gain-BW= Waveforms 26
7 Inference Inverting Amplifier Design Circuit Diagram Waveforms 27
8 Table 2.4 Frequency response of Inverting Amplifier Frequency 10 Hz Output voltage, Vo p-p Volts Calculated closed loop gain, ACL Vin = 20log(ACL) db Inference Non-Inverting Amplifier Design 28
9 Circuit Diagram Waveforms Table 2.5 Frequency response of Non-Inverting Amplifier Frequency 10 Hz Output voltage, Vo p-p Volts Calculated closed loop gain, ACL Vin = 20log(ACL) db 29
10 Inference Voltage follower Circuit Diagram Waveforms 30
11 Inference UNDERSTANDING & LEARNING 31
12 RESULTS AND CONCLUSION Prepared by: Name: Reg. No.: Actual Date of Experiment:. ASSESSMENT Date of Performance:.. Report Submission Date: Submission Delay:... Student Task Max. Marks Graded Marks Pre-lab Preparation 20 Inference 10 Results & Discussion 10 Signature Post-lab / Viva-voce 10 Total 50 32
CHARACTERISTICS OF OPERATIONAL AMPLIFIERS - I
CHARACTERISTICS OF OPERATIONAL AMPLIFIERS - I OBJECTIVE The purpose of the experiment is to examine non-ideal characteristics of an operational amplifier. The characteristics that are investigated include
More informationLINEAR APPLICATIONS OF OPERATIONAL AMPLIFIERS
LINEAR APPLICATIONS OF OPERATIONAL AMPLIFIERS OBJECTIVE The purpose of the experiment is to examine the linear applications of an operational amplifier. The applications that are designed and analyzed
More informationACTIVE FILTERS USING OPERATIONAL AMPLIFIERS
ACTIVE FILTERS USING OPERATIONAL AMPLIFIERS OBJECTIVE The purpose of the experiment is to design and compare the frequency plots of second order low pass and high pass active filters. EQUIPMENT REQUIRED
More informationWAVE SHAPING CIRCUITS USING OPERATIONAL AMPLIFIERS
WAVE SHAPING CIRCUITS USING OPERATIONAL AMPLIFIERS OBJECTIVE The purpose of the experiment is to design the wave shaping circuits like Clippers, Clampers and Schmitt trigger using op-amps. EQUIPMENT REQUIRED
More informationWAVEFORM GENERATOR CIRCUITS USING OPERATIONAL AMPLIFIERS
15EEE287 Electronic Circuits & Simulation Lab - II Lab #8 WAVEFORM GENERATOR CIRCUITS USING OPERATIONAL AMPLIFIERS OBJECTIVE The purpose of the experiment is to design and construct circuits to generate
More informationFREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER
Exp. No #6 FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER OBJECTIVE The purpose of the experiment is to analyze and plot the frequency response of a common collector amplifier. EQUIPMENT AND COMPONENTS
More informationFREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER
Exp. No #5 FREQUENCY RESPONSE OF COMMON COLLECTOR AMPLIFIER Date: OBJECTIVE The purpose of the experiment is to analyze and plot the frequency response of a common collector amplifier. EQUIPMENT AND COMPONENTS
More information15EEE282 Electronic Circuits and Simulation Lab - I Lab # 6
Exp. No #6 FREQUENCY RESPONSE OF COMMON EMITTER AMPLIFIER OBJECTIVE The purpose of the experiment is to design a common emitter amplifier. To analyze and plot the frequency response of the amplifier with
More informationUNIVERSITY OF NORTH CAROLINA AT CHARLOTTE Department of Electrical and Computer Engineering
UNIVERSITY OF NORTH CAROLINA AT CHARLOTTE Department of Electrical and Computer Engineering EXPERIMENT 5 GAIN-BANDWIDTH PRODUCT AND SLEW RATE OBJECTIVES In this experiment the student will explore two
More informationDIODE CLIPPERS AND CLAMPERS
Exp. No #2 OBJECTIVE DIODE CLIPPERS AND CLAMPERS The purpose of the experiment is to design and analyze diode clipping, limiting and clamping circuits. Also to measure the voltage limits of both biased
More informationCHARACTERIZATION OF OP-AMP
EXPERIMENT 4 CHARACTERIZATION OF OP-AMP OBJECTIVES 1. To sketch and briefly explain an operational amplifier circuit symbol and identify all terminals. 2. To list the amplifier stages in a typical op-amp
More informationEE 3305 Lab I Revised July 18, 2003
Operational Amplifiers Operational amplifiers are high-gain amplifiers with a similar general description typified by the most famous example, the LM741. The LM741 is used for many amplifier varieties
More informationLab 6 Prelab Grading Sheet
Lab 6 Prelab Grading Sheet NAME: Read through the Background section of this lab and print the prelab and in-lab grading sheets. Then complete the steps below and fill in the Prelab 6 Grading Sheet. You
More information15EEE282 Electronic Circuits and Simulation Lab - I Lab #4
Exp. No #4 TRANSISTOR AS SWITCH OBJECTIVE The purpose of the experiment is to design and analyze the operation of transistor as switch. Also, to design a suitable driver circuit for a given load using
More informationCHARACTERISTICS OF SEMICONDUCTOR DIODE
Exp. No #1 CHARACTERISTICS OF SEMICONDUCTOR DIODE Date: OBJECTIVE The purpose of the experiment is to examine characteristics of a silicon diode and to determine the barrier potential of the diode. From
More informationBaşkent University Department of Electrical and Electronics Engineering EEM 311 Electronics II Experiment 8 OPERATIONAL AMPLIFIERS
Başkent University Department of Electrical and Electronics Engineering EEM 311 Electronics II Experiment 8 Objectives: OPERATIONAL AMPLIFIERS 1.To demonstrate an inverting operational amplifier circuit.
More informationOperational Amplifiers. Boylestad Chapter 10
Operational Amplifiers Boylestad Chapter 10 DC-Offset Parameters Even when the input voltage is zero, an op-amp can have an output offset. The following can cause this offset: Input offset voltage Input
More informationEE 368 Electronics Lab. Experiment 10 Operational Amplifier Applications (2)
EE 368 Electronics Lab Experiment 10 Operational Amplifier Applications (2) 1 Experiment 10 Operational Amplifier Applications (2) Objectives To gain experience with Operational Amplifier (Op-Amp). To
More informationLecture Notes Unit-III
Lecture Notes Unit-III FAQs Q1: An operational amplifier has a differential gain of 103 and CMRR of 100, input voltages are 120µV and 80µV, determine output voltage. 2 MARKS
More informationLab 2 Operational Amplifier
Lab 2 Operational Amplifier Last Name: First Name: Student Number: Lab Section: Monday Tuesday Wednesday Thursday Friday TA Signature: Note: The Pre-Lab section must be completed prior to the lab session.
More informationChapter 3 THE DIFFERENTIATOR AND INTEGRATOR Name: Date
AN INTRODUCTION TO THE EXPERIMENTS The following two experiments are designed to demonstrate the design and operation of the op-amp differentiator and integrator at various frequencies. These two experiments
More informationUniversity of Pittsburgh
University of Pittsburgh Experiment #1 Lab Report Frequency Response of Operational Amplifiers Submission Date: 05/29/2018 Instructors: Dr. Ahmed Dallal Shangqian Gao Submitted By: Nick Haver & Alex Williams
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 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 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 informationECE4902 C Lab 7
ECE902 C2012 - Lab MOSFET Differential Amplifier Resistive Load Active Load PURPOSE: The primary purpose of this lab is to measure the performance of the differential amplifier. This is an important topology
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 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 informationBasic operational amplifier circuits In this lab exercise, we look at a variety of op-amp circuits. Note that this is a two-period lab.
Basic operational amplifier circuits In this lab exercise, we look at a variety of op-amp circuits. Note that this is a two-period lab. Prior to Lab 1. If it has been awhile since you last used the lab
More informationEECS 100/43 Lab 6 Frequency Response
Summer 7 Lab 6 EE/EE43. Objective EECS /43 Lab 6 Frequency Response In this lab, you will learn about the concept of gain-bandwidth product of an op-amp.. Equipment a. Breadboard b. Wire cutters c. Wires
More informationTRANSISTOR AS SWITCH
Exp. No #3 TRANSISTOR AS SWITCH Date: OBJECTIVE The purpose of the experiment is to design and analyze the operation of transistor as switch. Also, to design a suitable driver circuit for a given load
More informationChapter 10: The Operational Amplifiers
Chapter 10: The Operational Amplifiers Electronic Devices Operational Amplifiers (op-amp) Op-amp is an electronic device that amplify the difference of voltage at its two inputs. It has two input terminals,
More informationEE4902 C Lab 7
EE4902 C2007 - Lab 7 MOSFET Differential Amplifier Resistive Load Active Load PURPOSE: The primary purpose of this lab is to measure the performance of the differential amplifier. This is an important
More informationOperational Amplifiers
Operational Amplifiers Continuing the discussion of Op Amps, the next step is filters. There are many different types of filters, including low pass, high pass and band pass. We will discuss each of the
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 informationECE-342 Test 1: Sep 27, :00-8:00, Closed Book. Name : SOLUTION
ECE-342 Test 1: Sep 27, 2011 6:00-8:00, Closed Book Name : SOLUTION All solutions must provide units as appropriate. Use the physical constants and data as provided on the formula sheet the last page of
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 informationHOME ASSIGNMENT. Figure.Q3
HOME ASSIGNMENT 1. For the differential amplifier circuit shown below in figure.q1, let I=1 ma, V CC =5V, v CM = -2V, R C =3kΩ and β=100. Assume that the BJTs have v BE =0.7 V at i C =1 ma. Find the voltage
More informationLesson number one. Operational Amplifier Basics
What About Lesson number one Operational Amplifier Basics As well as resistors and capacitors, Operational Amplifiers, or Op-amps as they are more commonly called, are one of the basic building blocks
More informationAnalog Electronics. Lecture Pearson Education. Upper Saddle River, NJ, All rights reserved.
Analog Electronics V Lecture 5 V Operational Amplifers Op-amp is an electronic device that amplify the difference of voltage at its two inputs. V V 8 1 DIP 8 1 DIP 20 SMT 1 8 1 SMT Operational Amplifers
More informationAURORA S ENGINEERING COLLEGE BHONGIR, NALGONDA DIST
AURORA S ENGINEERING COLLEGE BHONGIR, NALGONDA DIST. 508116. Lab manual of IC APPLICATIONS LAB 3 rd Year 1 st Sem. ECE 2014-15 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING 1 PREFACE Integrated
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 informationOPERATIONAL AMPLIFIER PREPARED BY, PROF. CHIRAG H. RAVAL ASSISTANT PROFESSOR NIRMA UNIVRSITY
OPERATIONAL AMPLIFIER PREPARED BY, PROF. CHIRAG H. RAVAL ASSISTANT PROFESSOR NIRMA UNIVRSITY INTRODUCTION Op-Amp means Operational Amplifier. Operational stands for mathematical operation like addition,
More informationOperational Amplifier Circuits
ECE VIII. Basic 5 Operational Amplifier Circuits Lab 8 In this lab we will verify the operation of inverting and noninverting amplifiers constructed using Operational Amplifiers. We will also observe the
More informationUniversity of Michigan EECS 311: Electronic Circuits Fall 2009 LAB 2 NON IDEAL OPAMPS
University of Michigan EECS 311: Electronic Circuits Fall 2009 LAB 2 NON IDEAL OPAMPS Issued 10/5/2008 Pre Lab Completed 10/12/2008 Lab Due in Lecture 10/21/2008 Introduction In this lab you will characterize
More informationDEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS
DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS EXPERIMENT : 5 TITLE : ACTIVE FILTERS OUTCOME : Upon completion of this unit, the student should be able to: 1. gain experience with
More informationAnalog Electronic Circuits Code: EE-305-F
Analog Electronic Circuits Code: EE-305-F 1 INTRODUCTION Usually Called Op Amps Section -C Operational Amplifier An amplifier is a device that accepts a varying input signal and produces a similar output
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 informationUniversity of Portland EE 271 Electrical Circuits Laboratory. Experiment: Op Amps
University of Portland EE 271 Electrical Circuits Laboratory Experiment: Op Amps I. Objective The objective of this experiment is to learn how to use an op amp circuit to prevent loading and to amplify
More information1) Consider the circuit shown in figure below. Compute the output waveform for an input of 5kHz
) Consider the circuit shown in figure below. Compute the output waveform for an input of 5kHz Solution: a) Input is of constant amplitude of 2 V from 0 to 0. ms and 2 V from 0. ms to 0.2 ms. The output
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 informationHomework Assignment 03
Homework Assignment 03 Question 1 (Short Takes), 2 points each unless otherwise noted. 1. Two 0.68 μf capacitors are connected in series across a 10 khz sine wave signal source. The total capacitive reactance
More informationEE 210 Lab Exercise #5: OP-AMPS I
EE 210 Lab Exercise #5: OP-AMPS I ITEMS REQUIRED EE210 crate, DMM, EE210 parts kit, T-connector, 50Ω terminator, Breadboard Lab report due at the ASSIGNMENT beginning of the next lab period Data and results
More informationIntroduction to Analog Interfacing. ECE/CS 5780/6780: Embedded System Design. Various Op Amps. Ideal Op Amps
Introduction to Analog Interfacing ECE/CS 5780/6780: Embedded System Design Scott R. Little Lecture 19: Operational Amplifiers Most embedded systems include components that measure and/or control real-world
More informationPrelab 10: Differential Amplifiers
Name: Lab Section: Prelab 10: Differential Amplifiers For this lab, assume all NPN transistors are identical 2N3904 BJTs and all PNP transistors are identical 2N3906 BJTs. Component I S (A) V A (V) 2N3904
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 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 informationECE ECE285. Electric Circuit Analysis I. Spring Nathalia Peixoto. Rev.2.0: Rev Electric Circuits I
ECE285 Electric Circuit Analysis I Spring 2014 Nathalia Peixoto Rev.2.0: 140124. Rev 2.1. 140813 1 Lab reports Background: these 9 experiments are designed as simple building blocks (like Legos) and students
More informationBME/ISE 3512 Bioelectronics. Laboratory Five - Operational Amplifiers
BME/ISE 3512 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
More informationExperiment No. 9 DESIGN AND CHARACTERISTICS OF COMMON BASE AND COMMON COLLECTOR AMPLIFIERS
Experiment No. 9 DESIGN AND CHARACTERISTICS OF COMMON BASE AND COMMON COLLECTOR AMPLIFIERS 1. Objective: The objective of this experiment is to explore the basic applications of the bipolar junction transistor
More informationAssist Lecturer: Marwa Maki. Active Filters
Active Filters In past lecture we noticed that the main disadvantage of Passive Filters is that the amplitude of the output signals is less than that of the input signals, i.e., the gain is never greater
More informationDifferential Amplifier : input. resistance. Differential amplifiers are widely used in engineering instrumentation
Differential Amplifier : input resistance Differential amplifiers are widely used in engineering instrumentation Differential Amplifier : input resistance v 2 v 1 ir 1 ir 1 2iR 1 R in v 2 i v 1 2R 1 Differential
More informationSTATIC CHARACTERISTICS OF TRANSISTOR
STAT CHARACTERISTS OF TRANSISTOR OBJECTIVE The purpose of the experiment is to study the characteristics of bipolar transistor in common emitter (CE) configuration. From the characteristic curve it is
More informationOp-Amp Simulation Part II
Op-Amp Simulation Part II EE/CS 5720/6720 This assignment continues the simulation and characterization of a simple operational amplifier. Turn in a copy of this assignment with answers in the appropriate
More informationLABORATORY #3 QUARTZ CRYSTAL OSCILLATOR DESIGN
LABORATORY #3 QUARTZ CRYSTAL OSCILLATOR DESIGN OBJECTIVES 1. To design and DC bias the JFET transistor oscillator for a 9.545 MHz sinusoidal signal. 2. To simulate JFET transistor oscillator using MicroCap
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 10: Operational Amplifiers
Chapter 10: Operational Amplifiers Differential Amplifier Differential amplifier has two identical transistors with two inputs and two outputs. 2 Differential Amplifier Differential amplifier has two identical
More informationPHYSICS 330 LAB Operational Amplifier Frequency Response
PHYSICS 330 LAB Operational Amplifier Frequency Response Objectives: To measure and plot the frequency response of an operational amplifier circuit. History: Operational amplifiers are among the most widely
More informationPURPOSE: NOTE: Be sure to record ALL results in your laboratory notebook.
EE4902 Lab 9 CMOS OP-AMP PURPOSE: The purpose of this lab is to measure the closed-loop performance of an op-amp designed from individual MOSFETs. This op-amp, shown in Fig. 9-1, combines all of the major
More informationTransmit filter designs for ADSL modems
Transmit filter designs for ADSL modems 1. OBJECTIVES... 2 2. REFERENCE... 2 3. CIRCUITS... 2 4. COMPONENTS AND SPECIFICATIONS... 3 5. DISCUSSION... 3 6. PRE-LAB... 4 6.1 RECORDING SPECIFIED OPAMP PARAMETERS
More informationLab 3 Transient Response of RC & RL Circuits
Lab 3 Transient Response of RC & RL Circuits Last Name: First Name: Student Number: Lab Section: Monday Tuesday Wednesday Thursday Friday TA Signature: Note: The Pre-Lab section must be completed prior
More informationObjectives The purpose of this lab is build and analyze Differential amplifier based on NPN transistors.
1 Lab 03: Differential Amplifier Total 30 points: 20 points for lab, 5 points for well-organized report, 5 points for immaculate circuit on breadboard NOTES: 1) Please use the basic current mirror from
More informationDEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS
DEPARTMENT OF ELECTRICAL ENGINEERING LAB WORK EE301 ELECTRONIC CIRCUITS EXPERIMENT : 3 TITLE : Operational Amplifier (Op-Amp) OUTCOME : Upon completion of this unit, the student should be able to: 1. Gain
More informationECE4902 C Lab 5 MOSFET Common Source Amplifier with Active Load Bandwidth of MOSFET Common Source Amplifier: Resistive Load / Active Load
ECE4902 C2012 - Lab 5 MOSFET Common Source Amplifier with Active Load Bandwidth of MOSFET Common Source Amplifier: Resistive Load / Active Load PURPOSE: The primary purpose of this lab is to measure the
More informationINC 253 Digital and electronics laboratory I
INC 253 Digital and electronics laboratory I Laboratory 4 Wave Shaping Diode Circuits Author: ID CoAuthors: 1. ID 2. ID 3. ID Experiment Date: Report received Date: Comments For Instructor Full Marks Pre
More informationECEN 325 Lab 5: Operational Amplifiers Part III
ECEN Lab : Operational Amplifiers Part III Objectives The purpose of the lab is to study some of the opamp configurations commonly found in practical applications and also investigate the non-idealities
More informationHomework Assignment 04
Question 1 (Short Takes) Homework Assignment 04 1. Consider the single-supply op-amp amplifier shown. What is the purpose of R 3? (1 point) Answer: This compensates for the op-amp s input bias current.
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 Experiment #2 Differential Amplifiers. Group Members
Lab Experiment #2 Differential Amplifiers Group Members Student 1 Student 2 Student 3 Student Name Surname First Name Student ID # Pre-Lab Mark (out of 30) Lab Demo and performance (out of 70) Total Lab
More informationBENE 2163 ELECTRONIC SYSTEMS
UNIVERSITI TEKNIKAL MALAYSIA MELAKA FAKULTI KEJURUTERAAN ELEKTRONIK DAN KEJURUTERAAN KOMPUTER BENE 263 ELECTRONIC SYSTEMS LAB SESSION 3 WEIN BRIDGE OSCILLATOR Revised: February 20 Lab 3 Wien Bridge Oscillator
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 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 informationENSC 220 Lab #2: Op Amps Vers 1.2 Oct. 20, 2005: Due Oct. 24, 2004
ENSC 220 Lab #2: Op Amps Vers 1.2 Oct. 20, 2005: Due Oct. 24, 2004 OBJECTIVE: Using the circuits below you can study op amps and characterize their behavior. Comparator Inverting Amplifier PREPARATION:
More informationTHIRD SEMESTER ELECTRONICS - II BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING
THIRD SEMESTER ELECTRONICS - II BASIC ELECTRICAL & ELECTRONICS LAB DEPARTMENT OF ELECTRICAL ENGINEERING Prepared By: Checked By: Approved By: Engr. Saqib Riaz Engr. M.Nasim Khan Dr.Noman Jafri Lecturer
More informationLab 4 - Operational Amplifiers 1 Gain ReadMeFirst
Lab 4 - Operational Amplifiers 1 Gain ReadMeFirst Lab Summary There are three basic configurations for operational amplifiers. If the amplifier is multiplying the amplitude of the signal, the multiplication
More informationLM348. Quad Operational Amplifier. Features. Description. Internal Block Diagram.
Quad Operational Amplifier www.fairchildsemi.com Features LM741 OP Amp operating characteristics Low supply current drain Class AB output stage-no crossover distortion Pin compatible with the LM324 Low
More informationElectronics Lab. (EE21338)
Princess Sumaya University for Technology The King Abdullah II School for Engineering Electrical Engineering Department Electronics Lab. (EE21338) Prepared By: Eng. Eyad Al-Kouz October, 2012 Table of
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 informationUNIT - 1 OPERATIONAL AMPLIFIER FUNDAMENTALS
UNIT - 1 OPERATIONAL AMPLIFIER FUNDAMENTALS 1.1 Basic operational amplifier circuit- hte basic circuit of an operational amplifier is as shown in above fig. has a differential amplifier input stage and
More informationDocument Name: Electronic Circuits Lab. Facebook: Twitter:
Document Name: Electronic Circuits Lab www.vidyathiplus.in Facebook: www.facebook.com/vidyarthiplus Twitter: www.twitter.com/vidyarthiplus Copyright 2011-2015 Vidyarthiplus.in (VP Group) Page 1 CIRCUIT
More informationC H A P T E R 02. Operational Amplifiers
C H A P T E R 02 Operational Amplifiers The Op-amp Figure 2.1 Circuit symbol for the op amp. Figure 2.2 The op amp shown connected to dc power supplies. The Ideal Op-amp 1. Infinite input impedance 2.
More informationMechatronics. Analog and Digital Electronics: Studio Exercises 1 & 2
Mechatronics Analog and Digital Electronics: Studio Exercises 1 & 2 There is an electronics revolution taking place in the industrialized world. Electronics pervades all activities. Perhaps the most important
More informationData Conversion and Lab Lab 1 Fall Operational Amplifiers
Operational Amplifiers Lab Report Objectives Materials See separate report form located on the course webpage. This form should be completed during the performance of this lab. 1) To construct and operate
More informationOperational Amplifiers
Questions Easy Operational Amplifiers 1. Which of the following statements are true? a. An op-amp has two inputs and three outputs b. An op-amp has one input and two outputs c. An op-amp has two inputs
More informationBaşkent University Department of Electrical and Electronics Engineering EEM 214 Electronics I Experiment 9
Başkent University Department of Electrical and Electronics Engineering EEM 214 Electronics I Experiment 9 COMMON-COLLECTOR (EMITTER FOLLOWER) AMPLIFIER Aim: 1. To measure the open-circuit voltage gain,
More informationELC224 Final Review (12/10/2009) Name:
ELC224 Final Review (12/10/2009) Name: Select the correct answer to the problems 1 through 20. 1. A common-emitter amplifier that uses direct coupling is an example of a dc amplifier. 2. The frequency
More informationCHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta Road, Tirupati
IC APPLICATIONS LABORATORY MANUAL Subject Code : 15A04507 Regulations : R15 Class : V Semester (ECE) CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta Road, Tirupati 517
More informationChapter 3, Sections Electrical Filters
Chapter 3, Sections 3.2.4-3.2.5 Electrical Filters Signals DC and AC Components - Many signals can be constructed as sums of AC and DC components: 2.5 2 1.5 2 1.5 1.5 1 2 3 4 1.5 -.5-1 1 2 3 4 = + 2.5
More informationObjectives The purpose of this lab is build and analyze Differential amplifiers based on NMOS transistors (or NPN transistors).
1 Lab 03: Differential Amplifiers (MOSFET) (20 points) NOTE: 1) Please use the basic current mirror from Lab01 for the second part of the lab (Fig. 3). 2) You can use the same chip as the basic current
More informationCIRCUIT DIAGRAM Half Wave Rectifier. Half Wave Rectifier with filter 2012/ODD/III/ECE/EC I/LM 1
CIRCUIT DIAGRAM Half Wave Rectifier Half Wave Rectifier with filter 2012/ODD/III/ECE/EC I/LM 1 Ex.No. 1 Date: / /2012 Power supply circuit using Half Wave rectifiers AIM To Build and understand the operation
More information