LAB 5a Audio Equalizer (PSpice Simulation)
|
|
- Collin Wheeler
- 7 years ago
- Views:
Transcription
1 The Hong Kong University of Science and Technology Department of Electronic and Computer Engineering ELEC240 BASIC ELECTRONICS SPRING 203 LAB 5a Audio Equalizer (PSpice Simulation). Objective The objectives of this experiment are to design and build a simple analog audio equalizer using operational amplifiers and to provide experience with the applications of operational amplifier. 2. Component and Instrumentation a. Four 74 Op Amp ICs b. Dual power supply c. Waveform generator d. Dual channel oscilloscope 3. Background Information An audio equalizer is an electronic device to alter the frequency response characteristics of an audio system (e.g. MP3). The equalizer can be implemented in analog domain using passive and active electronic elements or in digital domain with some digital signal processing algorithms. In this experiment, you will design, build and test a simple analog audio equalizer using operational amplifiers. Peaking equalizer is one of the most popular implementations of audio equalizer. Peaking equalizer can raise or lower the level of a range of frequencies around a central frequency in a bell shape. Some peaking equalizers can control the gain, bandwidth and center frequency. In this experiment, a peaking equalizer will be designed which can adjust the gain (level) of each frequency band. Figure below shows one implementation of the audio equalizer system with three frequency bands and its frequency characteristic. Band-Pass Filter Audio in Band-Pass Filter 2 Mixer Audio out v i Band-Pass Filter 3 v o v v o i BPF BPF 2 BPF 3 Figure : An audio equalizer system Frequency (log scale) p.
2 There are several configurations may be used to realize a band-pass filter. A multiple-feedback band-pass filter is used in this experiment and is shown in Figure 2 which uses one operational amplifier and five resistors and capacitors. C4 v fi R R2 C3 R5 v fo Figure 2: A band-pass filter The voltage transfer function is given by ( / 4) ( )( ) ( ) v s RC fo = 2 v fi s + s R5 C3+ C4 + R5C3C4 R+ R2 / / / / (/ / ) () In terms of the band-pass filter function, H o = ( R / R )( + C / C ) (2) ω o = + RCC R R /2 C3 C 4 = + Q R5( / R+ / R2) C4 C3 (3) (4) where H o is the gain of the pass-band filter at the center frequency ω o and Q is the Q factor of the band-pass filter. Equations (2) to (5) can be used to design the gain, center frequency and the bandwidth of the band-pass filter. However, the equations are rather complicated and several assumptions can be made to simplify the design. First of all, the gain of the band-pass filter is not very important as the overall gain each frequency band can be adjusted by the tunable amplifier in series with the filter. By setting C 3 = C 4 = C and assuming R 2 >> R. Equations (3) and (4) can be simplified to ω o = (5) R RC 5 R 2 Q = R (6) 5 Hint: For a 3-band audio equalizer, the Q value of the filter should be smaller than. p. 2
3 The complete schematic of the 3-band audio equalizer system is shown in Figure 3. The tunable amplifiers and the mixer can be realized by an operational amplifier adder together with 3 variable resistors. Rm(s) are used to set the minimum resistances at the input of the adder and thus limit the maximum gain of the mixer. C a R a R 5a v a R 2a C a v i R b C b R 5b v b VR VR 2 R G R 2b C b VR 3 v o C c R c R 5c v c R 2c C c Figure 3: A 3-band equalizer p. 3
4 4. Experiment You are required to design your own equalizer. You need to determine the center frequencies and the Q values of the band-pass filters. You may consider the lower frequency filter corresponds to the Bass of your equalizer, the middle frequency is the vocal frequency and the higher frequency filter is the Treble of your equalizer. For your information, human can hear around 20 Hz to 20 khz. Human voice is between 80 Hz to 800 Hz and piano ranges from 30 Hz to 4 khz. In the other words, you need to find out the resistor and capacitor values of your equalizer. Assume there is only one turn 00 kω VRs are available in the laboratory. Please note that there are only a certain standard resistance and capacitor values available in the laboratory shown in the section 5 (Appendix). You should use the PSpice circuit simulator (PSpice student release) to simulate your equalizer to obtain the frequency characteristic to confirm the resistor and capacitor values. You should refer to the session of the lab#2 manual for reviewing how to obtain the frequency characteristic (20Hz-20KHz). Q. Write down all the calculated component values. R a R 2a R 5a R b R 2b R 5b VR 00K Ω VR 2 00K Ω VR 3 00K Ω R c R 2c R 5c R G C a C b C c f o_middle f o_lower f o_higher Q2. Show the simulated frequency characteristic of your equalizer to TA. TA signature : p. 4
5 5. Appendix Available Standard Resistance Values of 5%-tolerance resistors (/4W) in the laboratory k.5k 2.2k 4.7k 6.8k 8.2k 0k 5k 8k 22k 27k 33k 39k 47k 56k 68k 82k 00k 50k 220k 330k 470k 560k Available capacitance Values of ceramic capacitor in the laboratory. n 2.2n 4.7n 8.2n 0.0µ 0.05µ µ 0.033µ 0.047µ 0.068µ 0.082µ 0.µ Available variable-resistor (VR) in the laboratory. 00k Available operational-amplifier in the laboratory. UA74CN p. 5
Lab #9: AC Steady State Analysis
Theory & Introduction Lab #9: AC Steady State Analysis Goals for Lab #9 The main goal for lab 9 is to make the students familar with AC steady state analysis, db scale and the NI ELVIS frequency analyzer.
More informationLab 7: Operational Amplifiers Part I
Lab 7: Operational Amplifiers Part I 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 circuits,
More informationLaboratory 4: Feedback and Compensation
Laboratory 4: Feedback and Compensation To be performed during Week 9 (Oct. 20-24) and Week 10 (Oct. 27-31) Due Week 11 (Nov. 3-7) 1 Pre-Lab This Pre-Lab should be completed before attending your regular
More informationFrequency Response of Filters
School of Engineering Department of Electrical and Computer Engineering 332:224 Principles of Electrical Engineering II Laboratory Experiment 2 Frequency Response of Filters 1 Introduction Objectives To
More informationExperiment # (4) AM Demodulator
Islamic University of Gaza Faculty of Engineering Electrical Department Experiment # (4) AM Demodulator Communications Engineering I (Lab.) Prepared by: Eng. Omar A. Qarmout Eng. Mohammed K. Abu Foul Experiment
More informationENEE 307 Electronic Circuit Design Laboratory Spring 2012. A. Iliadis Electrical Engineering Department University of Maryland College Park MD 20742
1.1. Differential Amplifiers ENEE 307 Electronic Circuit Design Laboratory Spring 2012 A. Iliadis Electrical Engineering Department University of Maryland College Park MD 20742 Differential Amplifiers
More informationExperiment1: Introduction to laboratory equipment and basic components.
Experiment1: Introduction to laboratory equipment and basic components. 1 OBJECTIVES. This experiment will provide exposure to the various test equipment to be used in subsequent experiments. A primary
More informationLab 5 Operational Amplifiers
Lab 5 Operational Amplifiers By: Gary A. Ybarra Christopher E. Cramer Duke University Department of Electrical and Computer Engineering Durham, NC. Purpose The purpose of this lab is to examine the properties
More informationExperiment #11: LRC Circuit (Power Amplifier, Voltage Sensor)
Experiment #11: LRC Circuit (Power Amplifier, Voltage Sensor) Concept: circuits Time: 30 m SW Interface: 750 Windows file: RLC.SWS EQUIPMENT NEEDED Science Workshop Interface Power Amplifier (2) Voltage
More informationAM Receiver. Prelab. baseband
AM Receiver Prelab In this experiment you will use what you learned in your previous lab sessions to make an AM receiver circuit. You will construct an envelope detector AM receiver. P1) Introduction One
More informationLM1036 Dual DC Operated Tone/Volume/Balance Circuit
LM1036 Dual DC Operated Tone/Volume/Balance Circuit General Description The LM1036 is a DC controlled tone (bass/treble), volume and balance circuit for stereo applications in car radio, TV and audio systems.
More informationMassachusetts Institute of Technology Department of Electrical Engineering and Computer Science. 6.002 Electronic Circuits Spring 2007
Massachusetts Institute of Technology Department of Electrical Engineering and Computer Science 6.002 Electronic Circuits Spring 2007 Lab 4: Audio Playback System Introduction In this lab, you will construct,
More informationCommon-Emitter Amplifier
Common-Emitter Amplifier A. Before We Start As the title of this lab says, this lab is about designing a Common-Emitter Amplifier, and this in this stage of the lab course is premature, in my opinion,
More information11: AUDIO AMPLIFIER I. INTRODUCTION
11: AUDIO AMPLIFIER I. INTRODUCTION The properties of an amplifying circuit using an op-amp depend primarily on the characteristics of the feedback network rather than on those of the op-amp itself. A
More informationLAB 12: ACTIVE FILTERS
A. INTRODUCTION LAB 12: ACTIVE FILTERS After last week s encounter with op- amps we will use them to build active filters. B. ABOUT FILTERS An electric filter is a frequency-selecting circuit designed
More informationKaraoke Circuit Building Instructions
Karaoke Circuit Building Instructions Background Most popular and rock music recordings use multiple microphones and mixers to generate the left and right signals. Listening in stereo gives a broad presence
More informationOutput Ripple and Noise Measurement Methods for Ericsson Power Modules
Output Ripple and Noise Measurement Methods for Ericsson Power Modules Design Note 022 Ericsson Power Modules Ripple and Noise Abstract There is no industry-wide standard for measuring output ripple and
More informationPIEZO FILTERS INTRODUCTION
For more than two decades, ceramic filter technology has been instrumental in the proliferation of solid state electronics. A view of the future reveals that even greater expectations will be placed on
More informationProperties of electrical signals
DC Voltage Component (Average voltage) Properties of electrical signals v(t) = V DC + v ac (t) V DC is the voltage value displayed on a DC voltmeter Triangular waveform DC component Half-wave rectifier
More informationCTCSS REJECT HIGH PASS FILTERS IN FM RADIO COMMUNICATIONS AN EVALUATION. Virgil Leenerts WØINK 8 June 2008
CTCSS REJECT HIGH PASS FILTERS IN FM RADIO COMMUNICATIONS AN EVALUATION Virgil Leenerts WØINK 8 June 28 The response of the audio voice band high pass filter is evaluated in conjunction with the rejection
More informationDesigning Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators
Designing Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators Technical Brief December 3 TB47. Author: Doug Mattingly Assumptions This Technical Brief makes the following assumptions:.
More informationRC & RL Transient Response
EE 2006 University of Minnesota Duluth ab 8 1. Introduction R & R Transient Response The student will analyze series R and R circuits. A step input will excite these respective circuits, producing a transient
More informationGermanium Diode AM Radio
Germanium Diode AM Radio LAB 3 3.1 Introduction In this laboratory exercise you will build a germanium diode based AM (Medium Wave) radio. Earliest radios used simple diode detector circuits. The diodes
More informationWhat you will do. Build a 3-band equalizer. Connect to a music source (mp3 player) Low pass filter High pass filter Band pass filter
Audio Filters What you will do Build a 3-band equalizer Low pass filter High pass filter Band pass filter Connect to a music source (mp3 player) Adjust the strength of low, high, and middle frequencies
More informationLoop Bandwidth and Clock Data Recovery (CDR) in Oscilloscope Measurements. Application Note 1304-6
Loop Bandwidth and Clock Data Recovery (CDR) in Oscilloscope Measurements Application Note 1304-6 Abstract Time domain measurements are only as accurate as the trigger signal used to acquire them. Often
More informationTransistor Characteristics and Single Transistor Amplifier Sept. 8, 1997
Physics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 8, 1997 1 Purpose To measure and understand the common emitter transistor characteristic curves. To use the base current gain
More informationLM386 Low Voltage Audio Power Amplifier
Low Voltage Audio Power Amplifier General Description The LM386 is a power amplifier designed for use in low voltage consumer applications. The gain is internally set to 20 to keep external part count
More informationOPERATIONAL AMPLIFIERS
INTRODUCTION OPERATIONAL AMPLIFIERS The student will be introduced to the application and analysis of operational amplifiers in this laboratory experiment. The student will apply circuit analysis techniques
More informationEXPERIMENT NUMBER 8 CAPACITOR CURRENT-VOLTAGE RELATIONSHIP
1 EXPERIMENT NUMBER 8 CAPACITOR CURRENT-VOLTAGE RELATIONSHIP Purpose: To demonstrate the relationship between the voltage and current of a capacitor. Theory: A capacitor is a linear circuit element whose
More informationSee Horenstein 4.3 and 4.4
EE 462: Laboratory # 4 DC Power Supply Circuits Using Diodes by Drs. A.V. Radun and K.D. Donohue (2/14/07) Department of Electrical and Computer Engineering University of Kentucky Lexington, KY 40506 Updated
More informationAudio Tone Control Using The TLC074 Operational Amplifier
Application Report SLOA42 - JANUARY Audio Tone Control Using The TLC74 Operational Amplifier Dee Harris Mixed-Signal Products ABSTRACT This application report describes the design and function of a stereo
More informationLH0091 True RMS to DC Converter
LH0091 True RMS to DC Converter General Description The LH0091 rms to dc converter generates a dc output equal to the rms value of any input per the transfer function E OUT(DC) e 0 1 T T 0 E IN 2 (t) dt
More informationEE362L, Power Electronics Triac Light Dimmer
1 EE362L, Power Electronics Triac Light Dimmer Rochelle Stortz and Brian Taraba, Team 277 2/2/05 Abstract - This document presents the construction of a light dimmer circuit that utilizes the current-regulating
More informationisim ACTIVE FILTER DESIGNER NEW, VERY CAPABLE, MULTI-STAGE ACTIVE FILTER DESIGN TOOL
isim ACTIVE FILTER DESIGNER NEW, VERY CAPABLE, MULTI-STAGE ACTIVE FILTER DESIGN TOOL Michael Steffes Sr. Applications Manager 12/15/2010 SIMPLY SMARTER Introduction to the New Active Filter Designer Scope
More informationLABORATORY 2 THE DIFFERENTIAL AMPLIFIER
LABORATORY 2 THE DIFFERENTIAL AMPLIFIER OBJECTIVES 1. To understand how to amplify weak (small) signals in the presence of noise. 1. To understand how a differential amplifier rejects noise and common
More informationProgrammable Single-/Dual-/Triple- Tone Gong SAE 800
Programmable Single-/Dual-/Triple- Tone Gong Preliminary Data SAE 800 Bipolar IC Features Supply voltage range 2.8 V to 18 V Few external components (no electrolytic capacitor) 1 tone, 2 tones, 3 tones
More informationVoltage Divider Bias
Voltage Divider Bias ENGI 242 ELEC 222 BJT Biasing 3 For the Voltage Divider Bias Configurations Draw Equivalent Input circuit Draw Equivalent Output circuit Write necessary KVL and KCL Equations Determine
More informationTS34119 Low Power Audio Amplifier
SOP-8 DIP-8 Pin assignment: 1. CD 8. VO2 2. FC2 7. Gnd 3. FC1 6. Vcc 4. Vin 5. VO1 General Description The TS34119 is a low power audio amplifier, it integrated circuit intended (primarily) for telephone
More informationLM 358 Op Amp. If you have small signals and need a more useful reading we could amplify it using the op amp, this is commonly used in sensors.
LM 358 Op Amp S k i l l L e v e l : I n t e r m e d i a t e OVERVIEW The LM 358 is a duel single supply operational amplifier. As it is a single supply it eliminates the need for a duel power supply, thus
More informationStep Response of RC Circuits
Step Response of RC Circuits 1. OBJECTIVES...2 2. REFERENCE...2 3. CIRCUITS...2 4. COMPONENTS AND SPECIFICATIONS...3 QUANTITY...3 DESCRIPTION...3 COMMENTS...3 5. DISCUSSION...3 5.1 SOURCE RESISTANCE...3
More informationSophomore Physics Laboratory (PH005/105)
CALIFORNIA INSTITUTE OF TECHNOLOGY PHYSICS MATHEMATICS AND ASTRONOMY DIVISION Sophomore Physics Laboratory (PH5/15) Analog Electronics Active Filters Copyright c Virgínio de Oliveira Sannibale, 23 (Revision
More informationJosh Schau (jmschau@iastate.edu) Kyle Shearer (kshearer98@gmail.com) Mackenzie Tope (mktope@iastate.edu) Seth Weiss (sgweiss@iastate.
Class D Audio Amplifier and EQ Iowa State University TI Innovation Challenge 2014 Project Report Team Leader: Spencer Bell (ssbell@iastate.edu or spencersbell@gmail.com) Team Members: Advising Professor:
More informationPrecision Diode Rectifiers
by Kenneth A. Kuhn March 21, 2013 Precision half-wave rectifiers An operational amplifier can be used to linearize a non-linear function such as the transfer function of a semiconductor diode. The classic
More informationPhysics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 13, 2006
Physics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 13, 2006 1 Purpose To measure and understand the common emitter transistor characteristic curves. To use the base current gain
More information= V peak 2 = 0.707V peak
BASIC ELECTRONICS - RECTIFICATION AND FILTERING PURPOSE Suppose that you wanted to build a simple DC electronic power supply, which operated off of an AC input (e.g., something you might plug into a standard
More informationCIRCUITS LABORATORY EXPERIMENT 3. AC Circuit Analysis
CIRCUITS LABORATORY EXPERIMENT 3 AC Circuit Analysis 3.1 Introduction The steady-state behavior of circuits energized by sinusoidal sources is an important area of study for several reasons. First, the
More informationε: Voltage output of Signal Generator (also called the Source voltage or Applied
Experiment #10: LR & RC Circuits Frequency Response EQUIPMENT NEEDED Science Workshop Interface Power Amplifier (2) Voltage Sensor graph paper (optional) (3) Patch Cords Decade resistor, capacitor, and
More informationTL082 Wide Bandwidth Dual JFET Input Operational Amplifier
TL082 Wide Bandwidth Dual JFET Input Operational Amplifier General Description These devices are low cost high speed dual JFET input operational amplifiers with an internally trimmed input offset voltage
More informationunit : mm With heat sink (see Pd Ta characteristics)
Ordering number: EN1321E Monolithic Linear IC LA4261 3.5 W 2-Channel AF Power Amplifier for Home Stereos and Music Centers Features. Minimum number of external parts required (No input capacitor, bootstrap
More informationDesign of op amp sine wave oscillators
Design of op amp sine wave oscillators By on Mancini Senior Application Specialist, Operational Amplifiers riteria for oscillation The canonical form of a feedback system is shown in Figure, and Equation
More informationThe full wave rectifier consists of two diodes and a resister as shown in Figure
The Full-Wave Rectifier The full wave rectifier consists of two diodes and a resister as shown in Figure The transformer has a centre-tapped secondary winding. This secondary winding has a lead attached
More informationANADOLU UNIVERSITY DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
ANADOLU UNIVERSITY DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING EEM 102 INTRODUCTION TO ELECTRICAL ENGINEERING EXPERIMENT 9: DIODES AND DC POWER SUPPLY OBJECTIVE: To observe how a diode functions
More informationHow To Calculate The Power Gain Of An Opamp
A. M. Niknejad University of California, Berkeley EE 100 / 42 Lecture 8 p. 1/23 EE 42/100 Lecture 8: Op-Amps ELECTRONICS Rev C 2/8/2012 (9:54 AM) Prof. Ali M. Niknejad University of California, Berkeley
More informationOperational Amplifier - IC 741
Operational Amplifier - IC 741 Tabish December 2005 Aim: To study the working of an 741 operational amplifier by conducting the following experiments: (a) Input bias current measurement (b) Input offset
More informationOrCAD Capture with PSpice and Allegro DE CIS with AMS Simulator. Describes how to create a PSpice Archive File with Capture
Title: Product: Summary: Creating a Project Archive OrCAD Capture with PSpice and Allegro DE CIS with AMS Simulator Describes how to create a PSpice Archive File with Capture Author/Date: Wei Ling / 03.08.2009
More informationAN1991. Audio decibel level detector with meter driver
Rev. 2.1 20 March 2015 Application note Document information Info Keywords Abstract Content SA604A, LM358, RSSI, cellular radio The SA604A can provide a logarithmic response proportional to the input signal
More informationAC 2012-3923: MEASUREMENT OF OP-AMP PARAMETERS USING VEC- TOR SIGNAL ANALYZERS IN UNDERGRADUATE LINEAR CIRCUITS LABORATORY
AC 212-3923: MEASUREMENT OF OP-AMP PARAMETERS USING VEC- TOR SIGNAL ANALYZERS IN UNDERGRADUATE LINEAR CIRCUITS LABORATORY Dr. Tooran Emami, U.S. Coast Guard Academy Tooran Emami received her M.S. and Ph.D.
More informationOscilloscope, Function Generator, and Voltage Division
1. Introduction Oscilloscope, Function Generator, and Voltage Division In this lab the student will learn to use the oscilloscope and function generator. The student will also verify the concept of voltage
More informationEE 255 ELECTRONICS I LABORATORY EXPERIMENT 2 POWER SUPPLY DESIGN CONSIDERATIONS
EE 55 ELETRONIS I LABORATORY EXPERIMENT POWER SUPPLY ESIGN ONSIERATIONS OBJETIES In this experiment you will Learn how to select the best rectifier circuit for your application Gain experience in designing
More information13. Diode Rectifiers, Filters, and Power Supplies
1 13. Diode Rectifiers, Filters, and Power Supplies Introduction A power supply takes Alternating Current or A.C. power from your electric utility (Con Edison) and converts the A.C. electrical current
More informationSERIES-PARALLEL DC CIRCUITS
Name: Date: Course and Section: Instructor: EXPERIMENT 1 SERIES-PARALLEL DC CIRCUITS OBJECTIVES 1. Test the theoretical analysis of series-parallel networks through direct measurements. 2. Improve skills
More informationLaboratory Manual. ELEN-325 Electronics
Laboratory Manual ELEN-325 Electronics Department of Electrical & Computer Engineering Texas A&M University Prepared by: Dr. Jose Silva-Martinez (jsilva@ece.tamu.edu) Rida Assaad (rida@ece.tamu.edu) Raghavendra
More informationContent Map For Career & Technology
Content Strand: Applied Academics CT-ET1-1 analysis of electronic A. Fractions and decimals B. Powers of 10 and engineering notation C. Formula based problem solutions D. Powers and roots E. Linear equations
More informationUnderstanding Power Impedance Supply for Optimum Decoupling
Introduction Noise in power supplies is not only caused by the power supply itself, but also the load s interaction with the power supply (i.e. dynamic loads, switching, etc.). To lower load induced noise,
More informationUsing the Texas Instruments Filter Design Database
Application Report SLOA062 July, 2001 Bruce Carter Using the Texas Instruments Filter Design Database High Performance Linear Products ABSTRACT Texas Instruments applications personnel have decades of
More informationVJ 6040 Mobile Digital TV UHF Antenna Evaluation Board
VISHAY VITRAMON Multilayer Chip Capacitors Application Note GENERAL is a multilayer ceramic chip antenna designed for receiving mobile digital TV transmissions in the UHF band. The target application for
More informationMaking Accurate Voltage Noise and Current Noise Measurements on Operational Amplifiers Down to 0.1Hz
Author: Don LaFontaine Making Accurate Voltage Noise and Current Noise Measurements on Operational Amplifiers Down to 0.1Hz Abstract Making accurate voltage and current noise measurements on op amps in
More informationInductors in AC Circuits
Inductors in AC Circuits Name Section Resistors, inductors, and capacitors all have the effect of modifying the size of the current in an AC circuit and the time at which the current reaches its maximum
More informationFundamentals of Signature Analysis
Fundamentals of Signature Analysis An In-depth Overview of Power-off Testing Using Analog Signature Analysis www.huntron.com 1 www.huntron.com 2 Table of Contents SECTION 1. INTRODUCTION... 7 PURPOSE...
More informationTS1005 Demo Board COMPONENT LIST. Ordering Information. SC70 Packaging Demo Board SOT23 Packaging Demo Board TS1005DB TS1005DB-SOT
REVISION NOTE The current revision for the TS1005 Demo Boards display the identifier TS100x Demo Board on the top side of the evaluation board as depicted in Figure 1. If the identifier is not printed
More informationIntroduction to Receivers
Introduction to Receivers Purpose: translate RF signals to baseband Shift frequency Amplify Filter Demodulate Why is this a challenge? Interference (selectivity, images and distortion) Large dynamic range
More informationHow to Design 10 khz filter. (Using Butterworth filter design) Application notes. By Vadim Kim
How to Design 10 khz filter. (Using Butterworth filter design) Application notes. By Vadim Kim This application note describes how to build a 5 th order low pass, high pass Butterworth filter for 10 khz
More informationCommon Emitter BJT Amplifier Design Current Mirror Design
Common Emitter BJT Amplifier Design Current Mirror Design 1 Some Random Observations Conditions for stabilized voltage source biasing Emitter resistance, R E, is needed. Base voltage source will have finite
More information1. Learn about the 555 timer integrated circuit and applications 2. Apply the 555 timer to build an infrared (IR) transmitter and receiver
Electronics Exercise 2: The 555 Timer and its Applications Mechatronics Instructional Laboratory Woodruff School of Mechanical Engineering Georgia Institute of Technology Lab Director: I. Charles Ume,
More informationLF412 Low Offset Low Drift Dual JFET Input Operational Amplifier
LF412 Low Offset Low Drift Dual JFET Input Operational Amplifier General Description These devices are low cost high speed JFET input operational amplifiers with very low input offset voltage and guaranteed
More informationBJT Amplifier Circuits
JT Amplifier ircuits As we have developed different models for D signals (simple large-signal model) and A signals (small-signal model), analysis of JT circuits follows these steps: D biasing analysis:
More informationMEASUREMENT UNCERTAINTY IN VECTOR NETWORK ANALYZER
MEASUREMENT UNCERTAINTY IN VECTOR NETWORK ANALYZER W. Li, J. Vandewege Department of Information Technology (INTEC) University of Gent, St.Pietersnieuwstaat 41, B-9000, Gent, Belgium Abstract: Precision
More informationLM101A LM201A LM301A Operational Amplifiers
LM101A LM201A LM301A Operational Amplifiers General Description The LM101A series are general purpose operational amplifiers which feature improved performance over industry standards like the LM709 Advanced
More informationDEGREE: Bachelor in Biomedical Engineering YEAR: 2 TERM: 2 WEEKLY PLANNING
SESSION WEEK COURSE: Electronic Technology in Biomedicine DEGREE: Bachelor in Biomedical Engineering YEAR: 2 TERM: 2 WEEKLY PLANNING DESCRIPTION GROUPS (mark X) SPECIAL ROOM FOR SESSION (Computer class
More informationTDA2040. 20W Hi-Fi AUDIO POWER AMPLIFIER
20W Hi-Fi AUDIO POWER AMPLIFIER DESCRIPTION The TDA2040 is a monolithic integrated circuit in Pentawatt package, intended for use as an audio class AB amplifier. Typically it provides 22W output power
More informationTDA2040. 20W Hi-Fi AUDIO POWER AMPLIFIER
20W Hi-Fi AUDIO POWER AMPLIFIER DESCRIPTION The TDA2040 is a monolithic integrated circuit in Pentawatt package, intended for use as an audio class AB amplifier. Typically it provides 22W output power
More informationBasic Op Amp Circuits
Basic Op Amp ircuits Manuel Toledo INEL 5205 Instrumentation August 3, 2008 Introduction The operational amplifier (op amp or OA for short) is perhaps the most important building block for the design of
More informationElectronics. Discrete assembly of an operational amplifier as a transistor circuit. LD Physics Leaflets P4.2.1.1
Electronics Operational Amplifier Internal design of an operational amplifier LD Physics Leaflets Discrete assembly of an operational amplifier as a transistor circuit P4.2.1.1 Objects of the experiment
More informationDesigning Gain and Offset in Thirty Seconds
Application Report SLOA097 February 2002 Designing Gain and Offset in Thirty Seconds Bruce Carter High Performance Linear ABSTRACT This document discusses how to design an operational amplifier (op amp)
More informationLab #4 Thevenin s Theorem
In this experiment you will become familiar with one of the most important theorems in circuit analysis, Thevenin s Theorem. Thevenin s Theorem can be used for two purposes: 1. To calculate the current
More informationLM138 LM338 5-Amp Adjustable Regulators
LM138 LM338 5-Amp Adjustable Regulators General Description The LM138 series of adjustable 3-terminal positive voltage regulators is capable of supplying in excess of 5A over a 1 2V to 32V output range
More informationDigital to Analog Converter. Raghu Tumati
Digital to Analog Converter Raghu Tumati May 11, 2006 Contents 1) Introduction............................... 3 2) DAC types................................... 4 3) DAC Presented.............................
More informationFilter Design in Thirty Seconds
Application Report SLOA093 December 2001 Filter Design in Thirty Seconds Bruce Carter High Performance Analog ABSTRACT Need a filter fast? No theory, very little math just working filter designs, and in
More informationENGR-2300 Electronic Instrumentation Quiz 1 Spring 2015
ENGR-2300 Electronic Instrumentation Quiz Spring 205 On all questions: SHOW ALL WORK. BEGIN WITH FORMULAS, THEN SUBSTITUTE ALUES AND UNITS. No credit will be given for numbers that appear without justification.
More informationTitle: Low EMI Spread Spectrum Clock Oscillators
Title: Low EMI oscillators Date: March 3, 24 TN No.: TN-2 Page 1 of 1 Background Title: Low EMI Spread Spectrum Clock Oscillators Traditional ways of dealing with EMI (Electronic Magnetic Interference)
More informationOscillations and Regenerative Amplification using Negative Resistance Devices
Oscillations and Regenerative Amplification using Negative Resistance Devices Ramon Vargas Patron rvargas@inictel.gob.pe INICTEL The usual procedure for the production of sustained oscillations in tuned
More informationKit 106. 50 Watt Audio Amplifier
Kit 106 50 Watt Audio Amplifier T his kit is based on an amazing IC amplifier module from ST Electronics, the TDA7294 It is intended for use as a high quality audio class AB amplifier in hi-fi applications
More informationThe New Radio Receiver Building Handbook
The New Radio Receiver Building Handbook And Related Radio Subjects Vacuum Tube and Transistor Shortwave Radio Receivers by Lyle Russell Williams, BSEE KC5KBG Copyright 2006 by Lyle Russell Williams All
More informationReading: HH Sections 4.11 4.13, 4.19 4.20 (pgs. 189-212, 222 224)
6 OP AMPS II 6 Op Amps II In the previous lab, you explored several applications of op amps. In this exercise, you will look at some of their limitations. You will also examine the op amp integrator and
More informationAnalog Filters. A common instrumentation filter application is the attenuation of high frequencies to avoid frequency aliasing in the sampled data.
Analog Filters Filters can be used to attenuate unwanted signals such as interference or noise or to isolate desired signals from unwanted. They use the frequency response of a measuring system to alter
More informationPHYSICS 360 - LAB #2 Passive Low-pass and High-pass Filter Circuits and Integrator and Differentiator Circuits
PHYSICS 360 - LAB #2 Passie Low-pass and High-pass Filter Circuits and Integrator and Differentiator Circuits Objectie: Study the behaior of low-pass and high-pass filters. Study the differentiator and
More informationwww.jameco.com 1-800-831-4242
Distributed by: www.jameco.com 1-800-831-4242 The content and copyrights of the attached material are the property of its owner. LF411 Low Offset, Low Drift JFET Input Operational Amplifier General Description
More informationApplication Report SLOA024B
Application Report July 999 Revised September 2002 Mixed Signal Products SLOA024B IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications,
More informationApplication Note. Line Card Redundancy Design With the XRT83SL38 T1/E1 SH/LH LIU ICs
Application Note Design With the XRT83SL38 T1/E1 SH/LH LIU ICs Revision 1.3 1 REDUNDANCY APPLICATIONS INTRODUCTION Telecommunication system design requires signal integrity and reliability. When a T1/E1
More informationFrequency response: Resonance, Bandwidth, Q factor
Frequency response: esonance, Bandwidth, Q factor esonance. Let s continue the exploration of the frequency response of circuits by investigating the series circuit shown on Figure. C + V - Figure The
More information