CTA300. Communication Trainer Analog RELATED PRODUCTS. Communication Trainer kit
|
|
|
- Gilbert Holt
- 7 years ago
- Views:
Transcription
1 Communication Trainer kit Communication Trainer RELATED PRODUCTS v Digital Communication Trainers v Optical Fibers Communication Trainers v Digital and Communication Trainers v Communication Electronic Trainers v Function Generator and Power Supply v Multiple Signal Generator italtec@italtec.it
2 and and 1 Second Order Active Filter, RF Oscillator Second Order Active Filters Experiment 1: Second Order Active Lowpass Filter (Lowpass 3dB Frequency: 1kHz ~ 3kHz) Experiment 2: Second Order Active Highpass Filter (Highpass 3dB Frequency: 5kHz ~ 10kHz) Experiment 3: Second Order Active Bandpass Filter (Center Frequency: 10kHz ~ 100kHz, Bandwidth: 6kHz ~ 60kHz) Experiment 4: Second Order Active Bandstop Filter (Cutoff Frequency: 10kHz ~ 100kHz, Bandwidth:6kHz ~ 60kHz) RF Oscillators Experiment 1: Culprits Oscillator (Oscillation Frequency: 1MHz ~ 9MHz) Experiment 2: Hartley Oscillator (Oscillation Frequency: 500kHz ~ 1.8MHz) Experiment 3: Crystal Oscillator (Oscillation Frequency: 500kHz ~ 1.8MHz) Experiment 4: Voltage Controlled Oscillator (Oscillation Frequency: 3.5MHz ~ 4MHz) 2 Module AM Experiment 1: Transistor (Carrier Signal: 1.5kHz ~ 2kHz, Audio Signal: 500Hz ~ 1kHz) Experiment 2: MC1496 AM (Carrier Signal: 500kHz ~ 1MHz, Audio Signal: 500Hz ~ 1kHz) AM Demodulator Experiment 1: AM Diode (Carrier Signal: 300 khz, Audio Signal: 500Hz ~ 2kHz) Experiment 2: AM Product (Carrier Signal: 500kHz ~ 1MHz, italtec@italtec.it
3 and and 3 Module DSBSC and SSB DSBSC and SSB Experiment 1: DSBSC (Carrier Signal: 100kHz ~ 500kHz, Experiment 2: SSB (Carrier Signal: 200kHz, Audio Signal: 500Hz ~ 1kHz) 4 Module FM FM Experiment 1: MC4046 FM Signal: 1kHz) Experiment 2: LM566 FM Signal: 500Hz ~ 700Hz) 5 Module TDM TDM Multiplexer Experiment 1: Waveform Generator (Sine Wave Signal Generator: 13kHz, Triangle Wave Signal Generator: 2.3kHz, Square Wave Signal Generator: 2.3 khz) Experiment 2: TDM Multiplexer (Transmission Channels: 3 Channels, S witching Time: 500ms ~ 50ms) DSBSC and SSB Demodulator Experiment 1: DSBSC Product (Carrier Signal: 100kHz ~ 500kHz, Experiment 2: SSB Product (Carrier Signal: 200kHz, Audio Signal: 500Hz ~ 1kHz) FM Demodulator Experiment 1: MC4046 FM Demodulator Signal: 1kHz) Experiment 2: LM565 FM Demodulator Signal: 500Hz ~ 700Hz) TDM Demultiplexer Experiment 1: TDM Demultiplexer (Transmission Channels: 3 Channels, Switching Time: 500ms ~ 50ms) italtec@italtec.it
4 and and 6 Module FDM FDM Multiplexer Experiment 1: FDM Signal Generator (Carrier Signal: 500kHz ~ 1.5MHz, Audio Signal: 500Hz ~ 1.5kHz) Experiment 2: DSBSC Modulated Signal Generator (Carrier Signal: 500kHz ~ 1.5MHz, Audio Signal: 500Hz ~ 1.5kHz) (Modulation Type: DSBSC Signal, Transmission Bandwidth: 2MHz) 7 A/D D/A Converter todigital Converter Experiment 1: ADC0804 todigital Converter (Resolution: 8 bits, Input Voltage: 0V ~ 5V) Experiment 2: ADC0809 todigital Converter (Resolution: 8 bits, Input Voltage: 0V ~ 5V, Clock Frequency: 12 khz) FDM Demodulator Experiment 1: FDM Demultiplexer (Modulation Type: DSB SC Signal, Demultiplexing Type: Product Demultiplexer) Digitaltoanalog Converter Experiment 1: R2R Digitaltoanalog Converter (Digital Input: 4 bits, Output: 0V ~ 5V) Experiment 2: Unipolar DAC 0800 Digitaltoanalog Converter (Digital Input: 8 bits, Output: 0V ~ 5V, Step Value: 0.019V) Experiment 3: Bipolar DAC 0800 Digitaltoanalog Converter (Digital Input: 8 bits, Output: 5V ~ 5V, Step Value: 0.038V) 8 Signal Recovery Experiment 1: Frequency Multiplier (Carrier Signal: 10kHz) Experiment 2: Up/Down (Carrier LO port: 100kHz; Carrier RF port: 120kHz) Signal Recovery Experiment 1: Carrier Signal Recovery Circuit (Carrier Signal: 10kHz) Experiment 2: Clock Recovery Circuit (Clock Signal: TTL, Encoded Signal: Manchester, Clock Frequency: 5kHz ~ 10kHz) italtec@italtec.it
5 RF Oscillator AM Demodulator DSBSC and SSB DSBSC and SSB Demodulator Audio Input FM TDM Multiplexer FM Demodulator TDM Demultiplexer Audio Output FDM Multiplexer FDM Demultiplexer A/D Converter D/A Converter Frequency Doubler Experiment Contents Experiment 1: Second Order Active Lowpass Filter Experiment 2: Second Order Active Highpass Filter Experiment 3: Second Order Active Bandpass Filter Experiment 4: Second Order Active Bandstop Filter Experiment 5: Colpitts Oscillator Experiment 6: Hartley Oscillator Experiment 7: Crystal Oscillator Experiment 8: Voltage Controlled Oscillator Experiment 9: Transistor Experiment 10: MC1496 Experiment 11: AM Diode Experiment 12: AM Product Experiment 13: DSBSC Experiment 14: SSB Experiment 15: DSBSC Product Experiment 16: SSB Product Experiment 17: MC4046 FM Experiment 18: LM566 FM Experiment 19: MC4046 FM Demodulator Experiment 20: LM565 FM Demodulator Experiment 21: Waveform Generator Experiment 22: TDM Multiplexe Experiment 23: TDM Demultiplexer Experiment 24: FDM Signal Generator Experiment 25: DSBSC Modulated Signal Generator Experiment 26: FDM Multiplexer Experiment 27: FDM Demultiplexer Experiment 28: ADC0804 todigital Converter Experiment 29: ADC0809 todigital Converter Experiment 30: R2R Digitaltoanalog Converter Experiment 31: Unipolar DAC 0800 Digitaltoanalog Converter Experiment 32: Bipolar DAC 0800 Digitaltoanalog Converter Experiment 33: Frequency Multiplier Experiment 34: Up/Down
Communication Systems
AM/FM Receiver Communication Systems We have studied the basic blocks o any communication system Modulator Demodulator Modulation Schemes: Linear Modulation (DSB, AM, SSB, VSB) Angle Modulation (FM, PM)
INTRODUCTION TO COMMUNICATION SYSTEMS AND TRANSMISSION MEDIA
COMM.ENG INTRODUCTION TO COMMUNICATION SYSTEMS AND TRANSMISSION MEDIA 9/6/2014 LECTURES 1 Objectives To give a background on Communication system components and channels (media) A distinction between analogue
Experiment # (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
TUTORIAL FOR CHAPTER 8
TUTORIAL FOR CHAPTER 8 PROBLEM 1) The informaiton in four analog signals is to be multiplexed and transmitted over a telephone channel that has a 400 to 3100 Hz bandpass. Each of the analog baseband signals
Analog signals are those which are naturally occurring. Any analog signal can be converted to a digital signal.
3.3 Analog to Digital Conversion (ADC) Analog signals are those which are naturally occurring. Any analog signal can be converted to a digital signal. 1 3.3 Analog to Digital Conversion (ADC) WCB/McGraw-Hill
Modification Details.
Front end receiver modification for DRM: AKD Target Communications receiver. Model HF3. Summary. The receiver was modified and capable of receiving DRM, but performance was limited by the phase noise from
Voice---is analog in character and moves in the form of waves. 3-important wave-characteristics:
Voice Transmission --Basic Concepts-- Voice---is analog in character and moves in the form of waves. 3-important wave-characteristics: Amplitude Frequency Phase Voice Digitization in the POTS Traditional
Timing Errors and Jitter
Timing Errors and Jitter Background Mike Story In a sampled (digital) system, samples have to be accurate in level and time. The digital system uses the two bits of information the signal was this big
DAC Digital To Analog Converter
DAC Digital To Analog Converter DAC Digital To Analog Converter Highlights XMC4000 provides two digital to analog converters. Each can output one analog value. Additional multiple analog waves can be generated
Introduction to FM-Stereo-RDS Modulation
Introduction to FM-Stereo-RDS Modulation Ge, Liang Tan, EK Kelly, Joe Verigy, China Verigy, Singapore Verigy US 1. Introduction Frequency modulation (FM) has a long history of its application and is widely
How To Use A Sound Card With A Subsonic Sound Card
!"## $#!%!"# &"#' ( "#' )*! #+ #,# "##!$ -+./0 1" 1! 2"# # -&1!"#" (2345-&1 #$6.7 -&89$## ' 6! #* #!"#" +" 1##6$ "#+# #-& :1# # $ #$#;1)+#1#+
Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G.) Institute of Technology. Electronics & Communication Engineering. B.
Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G.) Institute of Technology Electronics & Communication Engineering B.Tech III Semester 1. Electronic Devices Laboratory 2. Digital Logic Circuit Laboratory 3.
LM1596 LM1496 Balanced Modulator-Demodulator
LM1596 LM1496 Balanced Modulator-Demodulator General Description The LM1596 LM1496 are doubled balanced modulator-demodulators which produce an output voltage proportional to the product of an input (signal)
ADS9850 Signal Generator Module
1. Introduction ADS9850 Signal Generator Module This module described here is based on ADS9850, a CMOS, 125MHz, and Complete DDS Synthesizer. The AD9850 is a highly integrated device that uses advanced
EECC694 - Shaaban. Transmission Channel
The Physical Layer: Data Transmission Basics Encode data as energy at the data (information) source and transmit the encoded energy using transmitter hardware: Possible Energy Forms: Electrical, light,
Analog Representations of Sound
Analog Representations of Sound Magnified phonograph grooves, viewed from above: The shape of the grooves encodes the continuously varying audio signal. Analog to Digital Recording Chain ADC Microphone
Objectives. Lecture 4. How do computers communicate? How do computers communicate? Local asynchronous communication. How do computers communicate?
Lecture 4 Continuation of transmission basics Chapter 3, pages 75-96 Dave Novak School of Business University of Vermont Objectives Line coding Modulation AM, FM, Phase Shift Multiplexing FDM, TDM, WDM
Solution. (Chapters 5-6-7-8) Dr. Hasan Qunoo. The Islamic University of Gaza. Faculty of Engineering. Computer Engineering Department
The Islamic University of Gaza Faculty of Engineering Computer Engineering Department Data Communications ECOM 4314 Solution (Chapters 5-6-7-8) Dr. Hasan Qunoo Eng. Wafaa Audah Eng. Waleed Mousa 1. A cable
Experiment 3: Double Sideband Modulation (DSB)
Experiment 3: Double Sideband Modulation (DSB) This experiment examines the characteristics of the double-sideband (DSB) linear modulation process. The demodulation is performed coherently and its strict
Chapter 6 Bandwidth Utilization: Multiplexing and Spreading 6.1
Chapter 6 Bandwidth Utilization: Multiplexing and Spreading 6.1 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Note Bandwidth utilization is the wise use of
Agilent 8904A Multifunction Synthesizer dc to 600 khz
Agilent 8904A Multifunction Synthesizer dc to 600 khz Technical Specifications Build complex waveforms from common signals The Agilent Technologies 8904A Multifunction Synthesizer uses VLSIC technology
Multiplexing. Multiplexing is the set of techniques that allows the simultaneous transmission of multiple signals across a single physical medium.
Multiplexing Multiplexing is the set of techniques that allows the simultaneous transmission of multiple signals across a single physical medium. The following two factors in data communications lead to
RF Measurements Using a Modular Digitizer
RF Measurements Using a Modular Digitizer Modern modular digitizers, like the Spectrum M4i series PCIe digitizers, offer greater bandwidth and higher resolution at any given bandwidth than ever before.
Chap#5 (Data communication)
Chap#5 (Data communication) Q#1: Define analog transmission. Normally, analog transmission refers to the transmission of analog signals using a band-pass channel. Baseband digital or analog signals are
How To Encode Data From A Signal To A Signal (Wired) To A Bitcode (Wired Or Coaxial)
Physical Layer Part 2 Data Encoding Techniques Networks: Data Encoding 1 Analog and Digital Transmissions Figure 2-23.The use of both analog and digital transmissions for a computer to computer call. Conversion
Content 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
CHAPTER 8 MULTIPLEXING
CHAPTER MULTIPLEXING 3 ANSWERS TO QUESTIONS.1 Multiplexing is cost-effective because the higher the data rate, the more cost-effective the transmission facility.. Interference is avoided under frequency
Sol: Optical range from λ 1 to λ 1 +Δλ contains bandwidth
1. Use Figure 3.47 and Figure 3.50 to explain why the bandwidth of twisted-wire pairs and coaxial cable decreases with distance. Figure 3.47 figure 3.50 sol: The bandwidth is the range of frequencies where
Simple SDR Receiver. Looking for some hardware to learn about SDR? This project may be just what you need to explore this hot topic!
Michael Hightower, KF6SJ 13620 White Rock Station Rd, Poway, CA 92064; kf6sj@arrl.net Simple SDR Receiver Looking for some hardware to learn about SDR? This project may be just what you need to explore
AM TRANSMITTERS & RECEIVERS
Reading 30 Ron Bertrand VK2DQ http://www.radioelectronicschool.com AM TRANSMITTERS & RECEIVERS Revision: our definition of amplitude modulation. Amplitude modulation is when the modulating audio is combined
Introduction 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
Department of Electrical and Computer Engineering Ben-Gurion University of the Negev. LAB 1 - Introduction to USRP
Department of Electrical and Computer Engineering Ben-Gurion University of the Negev LAB 1 - Introduction to USRP - 1-1 Introduction In this lab you will use software reconfigurable RF hardware from National
The front end of the receiver performs the frequency translation, channel selection and amplification of the signal.
Many receivers must be capable of handling a very wide range of signal powers at the input while still producing the correct output. This must be done in the presence of noise and interference which occasionally
Lecture 1: Communication Circuits
EECS 142 Lecture 1: Communication Circuits Prof. Ali M. Niknejad University of California, Berkeley Copyright c 2005 by Ali M. Niknejad A. M. Niknejad University of California, Berkeley EECS 142 Lecture
Example/ an analog signal f ( t) ) is sample by f s = 5000 Hz draw the sampling signal spectrum. Calculate min. sampling frequency.
1 2 3 4 Example/ an analog signal f ( t) = 1+ cos(4000πt ) is sample by f s = 5000 Hz draw the sampling signal spectrum. Calculate min. sampling frequency. Sol/ H(f) -7KHz -5KHz -3KHz -2KHz 0 2KHz 3KHz
FILTERS - IN RADIO COMMUNICATIONS
Reading 32 Ron Bertrand VK2DQ http://www.radioelectronicschool.com FILTERS - IN RADIO COMMUNICATIONS RADIO SIGNALS In radio communications we talk a lot about radio signals. A radio signal is a very broad
VCO Phase noise. Characterizing Phase Noise
VCO Phase noise Characterizing Phase Noise The term phase noise is widely used for describing short term random frequency fluctuations of a signal. Frequency stability is a measure of the degree to which
Timer A (0 and 1) and PWM EE3376
Timer A (0 and 1) and PWM EE3376 General Peripheral Programming Model Each peripheral has a range of addresses in the memory map peripheral has base address (i.e. 0x00A0) each register used in the peripheral
Modulation Methods SSB and DSB
Modulation Methods SSB and DSB William Sheets K2MQJ Rudolf F. Graf KA2CWL SSB or Single Sideband, is a type of AM without the carrier and one sideband. DSB or double sideband is AM with the carrier suppressed,
The Phase Modulator In NBFM Voice Communication Systems
The Phase Modulator In NBFM Voice Communication Systems Virgil Leenerts 8 March 5 The phase modulator has been a point of discussion as to why it is used and not a frequency modulator in what are called
LEVERAGING FPGA AND CPLD DIGITAL LOGIC TO IMPLEMENT ANALOG TO DIGITAL CONVERTERS
LEVERAGING FPGA AND CPLD DIGITAL LOGIC TO IMPLEMENT ANALOG TO DIGITAL CONVERTERS March 2010 Lattice Semiconductor 5555 Northeast Moore Ct. Hillsboro, Oregon 97124 USA Telephone: (503) 268-8000 www.latticesemi.com
Multiplexing on Wireline Telephone Systems
Multiplexing on Wireline Telephone Systems Isha Batra, Divya Raheja Information Technology, Dronacharya College of Engineering Farrukh Nagar, Gurgaon, India ABSTRACT- This Paper Outlines a research multiplexing
Digital Modulation. David Tipper. Department of Information Science and Telecommunications University of Pittsburgh. Typical Communication System
Digital Modulation David Tipper Associate Professor Department of Information Science and Telecommunications University of Pittsburgh http://www.tele.pitt.edu/tipper.html Typical Communication System Source
Digital 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.............................
MODULATION Systems (part 1)
Technologies and Services on Digital Broadcasting (8) MODULATION Systems (part ) "Technologies and Services of Digital Broadcasting" (in Japanese, ISBN4-339-62-2) is published by CORONA publishing co.,
Software Defined Radio
Software Defined Radio GNU Radio and the USRP Overview What is Software Defined Radio? Advantages of Software Defined Radio Traditional versus SDR Receivers SDR and the USRP Using GNU Radio Introduction
RF Network Analyzer Basics
RF Network Analyzer Basics A tutorial, information and overview about the basics of the RF Network Analyzer. What is a Network Analyzer and how to use them, to include the Scalar Network Analyzer (SNA),
CLOCK AND SYNCHRONIZATION IN SYSTEM 6000
By Christian G. Frandsen Introduction This document will discuss the clock, synchronization and interface design of TC System 6000 and deal with several of the factors that must be considered when using
DEVELOPMENT OF DEVICES AND METHODS FOR PHASE AND AC LINEARITY MEASUREMENTS IN DIGITIZERS
DEVELOPMENT OF DEVICES AND METHODS FOR PHASE AND AC LINEARITY MEASUREMENTS IN DIGITIZERS U. Pogliano, B. Trinchera, G.C. Bosco and D. Serazio INRIM Istituto Nazionale di Ricerca Metrologica Torino (Italia)
1.6 Gbit/s Synchronous Optical QPSK Transmission with Standard DFB Lasers in Realtime
1 1.6 Gbit/s Synchronous Optical QPSK Transmission with Standard DFB Lasers in Realtime S. Hoffmann, T. Pfau, R. Peveling, S. Bhandare, O. Adamczyk, M. Porrmann, R. Noé Univ. Paderborn, EIM-E Optical Communication
The dsp-g1 MIDI-Synthesizer Chip. The smallest Analog Modeling Synthesizer in the world. Application Manual v1.0
The dsp-g1 MIDI-Synthesizer Chip The smallest Analog Modeling Synthesizer in the world Application Manual v1.0 The dsp-g1 MIDI-Synthesizer Chip The dsp-g1 synthesizer is a chip that contains a full analog
Analog vs. Digital Transmission
Analog vs. Digital Transmission Compare at two levels: 1. Data continuous (audio) vs. discrete (text) 2. Signaling continuously varying electromagnetic wave vs. sequence of voltage pulses. Also Transmission
NAPIER University School of Engineering. Electronic Systems Module : SE32102 Analogue Filters Design And Simulation. 4 th order Butterworth response
NAPIER University School of Engineering Electronic Systems Module : SE32102 Analogue Filters Design And Simulation. 4 th order Butterworth response In R1 R2 C2 C1 + Opamp A - R1 R2 C2 C1 + Opamp B - Out
Optimizing VCO PLL Evaluations & PLL Synthesizer Designs
Optimizing VCO PLL Evaluations & PLL Synthesizer Designs Today s mobile communications systems demand higher communication quality, higher data rates, higher operation, and more channels per unit bandwidth.
MATRIX TECHNICAL NOTES
200 WOOD AVENUE, MIDDLESEX, NJ 08846 PHONE (732) 469-9510 FAX (732) 469-0418 MATRIX TECHNICAL NOTES MTN-107 TEST SETUP FOR THE MEASUREMENT OF X-MOD, CTB, AND CSO USING A MEAN SQUARE CIRCUIT AS A DETECTOR
0HDVXULQJWKHHOHFWULFDOSHUIRUPDQFH FKDUDFWHULVWLFVRI5),)DQGPLFURZDYHVLJQDO SURFHVVLQJFRPSRQHQWV
0HDVXULQJWKHHOHFWULFDOSHUIRUPDQFH FKDUDFWHULVWLFVRI5),)DQGPLFURZDYHVLJQDO SURFHVVLQJFRPSRQHQWV The treatment given here is introductory, and will assist the reader who wishes to consult the standard texts
Interfacing Analog to Digital Data Converters
Converters In most of the cases, the PIO 8255 is used for interfacing the analog to digital converters with microprocessor. We have already studied 8255 interfacing with 8086 as an I/O port, in previous
RF Communication System. EE 172 Systems Group Presentation
RF Communication System EE 172 Systems Group Presentation RF System Outline Transmitter Components Receiver Components Noise Figure Link Budget Test Equipment System Success Design Remedy Transmitter Components
MAINTENANCE & ADJUSTMENT
MAINTENANCE & ADJUSTMENT Circuit Theory The concept of PLL system frequency synthesization is not of recent development, however, it has not been a long age since the digital theory has been couplet with
Sampling Theorem Notes. Recall: That a time sampled signal is like taking a snap shot or picture of signal periodically.
Sampling Theorem We will show that a band limited signal can be reconstructed exactly from its discrete time samples. Recall: That a time sampled signal is like taking a snap shot or picture of signal
Operating Manual Ver.1.1
Class B Amplifier (Push-Pull Emitter Follower) Operating Manual Ver.1.1 An ISO 9001 : 2000 company 94-101, Electronic Complex Pardesipura, Indore- 452010, India Tel : 91-731- 2570301/02, 4211100 Fax: 91-731-
Homebuilt HF Radios for Use Underground Paul R. Jorgenson KE7HR
Homebuilt HF Radios for Use Underground Paul R. Jorgenson KE7HR With the good success in using Amateur Band HF radio for underground communications, I started looking for cheaper alternatives to the $500+
Implementation of Digital Signal Processing: Some Background on GFSK Modulation
Implementation of Digital Signal Processing: Some Background on GFSK Modulation Sabih H. Gerez University of Twente, Department of Electrical Engineering s.h.gerez@utwente.nl Version 4 (February 7, 2013)
TCOM 370 NOTES 99-6 VOICE DIGITIZATION AND VOICE/DATA INTEGRATION
TCOM 370 NOTES 99-6 VOICE DIGITIZATION AND VOICE/DATA INTEGRATION (Please read appropriate parts of Section 2.5.2 in book) 1. VOICE DIGITIZATION IN THE PSTN The frequencies contained in telephone-quality
Massachusetts 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,
Product Information S N O. Portable VIP protection CCTV & Alarm System 2
Product Information S N O Portable VIP protection CCTV & Alarm System 2 G O V E R N M E N T A L S E C U R I T Y S O L U T I VIP KIT Rapid Deployment VIP Protection Kit The VIP KIT has been designed to
THE R551N RECEIVER FAQ FAULT FINDING THE REDIFON COMMUNICATIONS RECEIVER R551N. Date: October 10th 1995 by: Jan Verduyn G5BBL
THE R551N RECEIVER FAQ FAULT FINDING THE REDIFON COMMUNICATIONS RECEIVER R551N Introduction: Date: October 10th 1995 by: Jan Verduyn G5BBL Recently a number of Redifon R551N receivers have appeared on
Non-Data Aided Carrier Offset Compensation for SDR Implementation
Non-Data Aided Carrier Offset Compensation for SDR Implementation Anders Riis Jensen 1, Niels Terp Kjeldgaard Jørgensen 1 Kim Laugesen 1, Yannick Le Moullec 1,2 1 Department of Electronic Systems, 2 Center
Chapter 8: The Telephone System
Chapter 8: The Telephone System MULTIPLE CHOICE 1. DTMF stands for: a. Digital Telephony Multiple Frequency c. Dual-Tone Multifrequency b. Dial Tone Master Frequency d. Digital Trunk Master Frequency 2.
Analog Signal Conditioning
Analog Signal Conditioning Analog and Digital Electronics Electronics Digital Electronics Analog Electronics 2 Analog Electronics Analog Electronics Operational Amplifiers Transistors TRIAC 741 LF351 TL084
Sequential multi-effect sequencer
Sequential multi-effect sequencer WHAT IS IT INTRODUCTION Sequential is a dynamic multi-effect that allows you to trigger different processing and synthesis algorithms in a rhythmical fashion. It features
Impedance 50 (75 connectors via adapters)
VECTOR NETWORK ANALYZER PLANAR TR1300/1 DATA SHEET Frequency range: 300 khz to 1.3 GHz Measured parameters: S11, S21 Dynamic range of transmission measurement magnitude: 130 db Measurement time per point:
Angle Modulation, II. Lecture topics FM bandwidth and Carson s rule. Spectral analysis of FM. Narrowband FM Modulation. Wideband FM Modulation
Angle Modulation, II EE 179, Lecture 12, Handout #19 Lecture topics FM bandwidth and Carson s rule Spectral analysis of FM Narrowband FM Modulation Wideband FM Modulation EE 179, April 25, 2014 Lecture
LAB 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
Pulse Width Modulated (PWM) Drives. AC Drives Using PWM Techniques
Drives AC Drives Using PWM Techniques Power Conversion Unit The block diagram below shows the power conversion unit in Pulse Width Modulated (PWM) drives. In this type of drive, a diode bridge rectifier
Wireless Audio Link IC
BH7F Wireless Audio Link IC BH7F The BH7F is a FM stereo transmitter IC that transmits simple configuration. The IC consists of a stereo modulator for generating stereo composite signals and a FM transmitter
Digital Transmission of Analog Data: PCM and Delta Modulation
Digital Transmission of Analog Data: PCM and Delta Modulation Required reading: Garcia 3.3.2 and 3.3.3 CSE 323, Fall 200 Instructor: N. Vlajic Digital Transmission of Analog Data 2 Digitization process
DigiPoints Volume 1. Student Workbook. Module 4 Bandwidth Management
Bandwidth Management Page 4.1 DigiPoints Volume 1 Module 4 Bandwidth Management Summary This module will cover Time Division Multiplexing (TDM). TDM technology allows many users to access a particular
What 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
Lecture 27: Mixers. Gilbert Cell
Whites, EE 322 Lecture 27 Page 1 of 9 Lecture 27: Mixers. Gilbert Cell Mixers shift the frequency spectrum of an input signal. This is an essential component in electrical communications (wireless or otherwise)
Germanium 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
Projects. Objective To gain hands-on design and measurement experience with real-world applications. Contents
Projects Contents 9-1 INTRODUCTION...................... 43 9-2 PROJECTS......................... 43 9-2.1 Alarm Radar Sensor................ 43 9-2.2 Microwave FM Communication Link....... 46 9-2.3 Optical
AM 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
Chap 4 Circuit-Switching Networks
hap 4 ircuit-switching Networks Provide dedicated circuits between users Example: 1. telephone network: provides 64Kbps circuits for voice signals 64Kbps=8 k samples/sec * 8 bits/sample 2. transport network:
FRAUNHOFER INSTITUTE FOR INTEg RATEd CIRCUITS IIS. drm TesT equipment
FRAUNHOFER INSTITUTE FOR INTEg RATEd CIRCUITS IIS drm TesT equipment dt230 playback of drm signals recording of drm signals channel simulation receiver performance analysis real-time modulation Architecture
Laboratory #5: RF Filter Design
EEE 194 RF Laboratory Exercise 5 1 Laboratory #5: RF Filter Design I. OBJECTIVES A. Design a third order low-pass Chebyshev filter with a cutoff frequency of 330 MHz and 3 db ripple with equal terminations
Pulse Width Modulated (PWM)
Control Technologies Manual PWM AC Drives Revision 1.0 Pulse Width Modulated (PWM) Figure 1.8 shows a block diagram of the power conversion unit in a PWM drive. In this type of drive, a diode bridge rectifier
DIGITAL-TO-ANALOGUE AND ANALOGUE-TO-DIGITAL CONVERSION
DIGITAL-TO-ANALOGUE AND ANALOGUE-TO-DIGITAL CONVERSION Introduction The outputs from sensors and communications receivers are analogue signals that have continuously varying amplitudes. In many systems
INTEGRATED CIRCUITS DATA SHEET. TDA7000 FM radio circuit. Product specification File under Integrated Circuits, IC01
INTEGRATED CIRCUITS DATA SHEET File under Integrated Circuits, IC01 May 1992 GENERAL DESCRIPTION The is a monolithic integrated circuit for mono FM portable radios, where a minimum on peripheral components
Physical Layer, Part 2 Digital Transmissions and Multiplexing
Physical Layer, Part 2 Digital Transmissions and Multiplexing These slides are created by Dr. Yih Huang of George Mason University. Students registered in Dr. Huang's courses at GMU can make a single machine-readable
AM/FM/ϕM Measurement Demodulator FS-K7
Data sheet Version 02.00 AM/FM/ϕM Measurement Demodulator FS-K7 July 2005 for the Analyzers FSQ/FSU/FSP and the Test Receivers ESCI/ESPI AM/FM/ϕM demodulator for measuring analog modulation parameters
Next Generation of High Speed. Modems8
Next Generation of High Speed Modems High Speed Modems. 1 Traditional Modems Assume both ends have Analog connection Analog signals are converted to Digital and back again. Limits transmission speed to
THE BASICS OF PLL FREQUENCY SYNTHESIS
Supplementary Reading for 27 - Oscillators Ron Bertrand VK2DQ http://www.radioelectronicschool.com THE BASICS OF PLL FREQUENCY SYNTHESIS The phase locked loop (PLL) method of frequency synthesis is now
Advanced Signal Processing 1 Digital Subscriber Line
Advanced Signal Processing 1 Digital Subscriber Line Biljana Badic e-mail: zoom2@sbox.tu-graz.ac.at 1. I n t r o d u c t i o n As a transmission technology, digital subscriber line was originally developed
Lab 5 Getting started with analog-digital conversion
Lab 5 Getting started with analog-digital conversion Achievements in this experiment Practical knowledge of coding of an analog signal into a train of digital codewords in binary format using pulse code
Tx/Rx A high-performance FM receiver for audio and digital applicatons
Tx/Rx A high-performance FM receiver for audio and digital applicatons This receiver design offers high sensitivity and low distortion for today s demanding high-signal environments. By Wayne C. Ryder
Conversion Between Analog and Digital Signals
ELET 3156 DL - Laboratory #6 Conversion Between Analog and Digital Signals There is no pre-lab work required for this experiment. However, be sure to read through the assignment completely prior to starting
HF communications. Chapter 5. 5.1 HF range and propagation
Chapter 5 HF communications High frequency (HF) radio provides aircraft with an effective means of communication over long distance oceanic and trans-polar routes. In addition, global data communication
TOTALLY SOLID STATE NON-DIRECTIONAL RADIO BEACONS 190-535 khz
TOTALLY SOLID STATE NON-DIRECTIONAL RADIO S 190-535 khz This family of radio transmitters has been developed as extremely efficient, highly reliable Non Directional Beacons. ND2000A/4000A» MODULAR CONSTRUCTION»
Design of Bidirectional Coupling Circuit for Broadband Power-Line Communications
Journal of Electromagnetic Analysis and Applications, 2012, 4, 162-166 http://dx.doi.org/10.4236/jemaa.2012.44021 Published Online April 2012 (http://www.scirp.org/journal/jemaa) Design of Bidirectional