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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Electrical Communications Systems ECE.09.331 Spring 2007 Shreekanth Mandayam ECE Department Rowan University http://engineering.rowan.edu/~shreek/spring07/ecomms/ Lecture 12b April 11, 2007
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S. Mandayam/ ECOMMS/ECE Dept./Rowan UniversityPlan Data Processing & Data Communications Communications Networks Packet Switched Networks OSI 7-Layer Protocol Architecture TCP-IP Protocol Architecture Broadcast Transmitters and Receivers AM Broadcast Transmitter Class-C Amp Collector Modulator TRF Receiver Superheterodyne Receiver
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University ECOMMS: Topics
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Communications Networking Router Step 1: Step 2: Step 3: …….. Protocol Sender Medium Step 1: Step 2: Step 3: …….. Protocol Receiver Message
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University A 3-Layer Protocol Architecture File transfer application Communications service module Network access module File transfer application Communications service module Network access module Computer 1 Computer 2 Comm network Files and file transfer commands Comm related messages
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University ISO OSI 7-Layer Model Physical Data Link Network Presentation Session Transport Application 76543217654321 Please Do Not Touch Steve’s Pet Alligator
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University TCP-IP Protocol Architecture Physical Network Access Internet Transport (host-to-host) Application TCP-IP Application Presentation Session Transport Network Data Link Physical OSI Hardware Firmware Software Operating system User space
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University TCP-IP Operation Example Network access protocol #1 Physical IP TCP Host A App X App Y Network access protocol #2 Physical IP TCP Host B App X App Y Logical connection (TCP) Port or Service access point (SAP) Global network address Network 1 Network 2 IP NAP1NAP2 Router J Subnetwork attachment point address Logical connection
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University TCP-IP Protocol Packet TCP header IP header Network header User Data Application Byte Stream TCP Segment IP Datagram Network Level Packet
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University IP Header VersionIHLType of ServiceTotal Length IdentificationFlagsFragment Offset Time to LiveProtocolHeader Checksum Source Address Destination Address Options + Padding 0 4 8 16 19 31 20 octets
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University TCP Header Source PortDestination Port Sequence Number Acknowledgement Number Data OffsetReserved URGURG ACKACK PSHPSH RSTRST SYNSYN FINFIN Window ChecksumUrgent Pointer Options + Padding 0 4 10 16 31 20 octets
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University ECOMMS: Topics
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University AM Broadcast Transmitter Temp. Stabilized Crystal Oscillator Buffer Amplifier Class-C Modulated Power Amp. Stage Class-C Modulated Power Amp. Stage Impedance Matching Network Audio Amplifier Modulator Driver Amplifier Demodulator Audio Input + -
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Amplifier Classification icic tt icic tt icic tt icic tt Class A Class B Class AB Class C
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University BJT Collector Modulator Circuit Output Characteristics
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Circuit Operation BJT Collector Modulator
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University AM Receiver Purpose Demodulate received signal Requirements Carrier frequency tuning Filtering Amplification
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Tuning Circuits Series Tuned Circuit + - V r C L I
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Series Tuned Circuit function [f,A]=resonance(f0,Q) %ECOMMS Spring 00 Class Demo %S. Mandayam, ECE Dept., Rowan University %To illustrate series resonance and Q-factor close all; %defining frequency axis f=f0-f0/2:0.1:f0+f0/2; %calculating relative response y=(f/f0)-(f0./f); A=20*log10(1./(1+(y*Q).^2).^0.5); plot(f-f0,A);grid on; xlabel('Shift from resonant frequency in Hz'); ylabel('Relative Response in dB'); title('Series Tuning Circuit');
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Tuning Circuits Parallel Tuned Circuit + - V r C L I Active Tuned Circuits?
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Tuned Radio Frequency (TRF) Receiver Active Tuning Circuit Detector Circuit Local Oscillator Bandpass Filter Baseband Audio Amp
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S. Mandayam/ ECOMMS/ECE Dept./Rowan UniversityHeterodyning Heterodyning (Upconversion/ Downconversion) Subsequent Processing (common) All Incoming Frequencies Fixed Intermediate Frequency
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S. Mandayam/ ECOMMS/ECE Dept./Rowan University Superheterodyne Receiver RF Amplifier H 1 (f) Mixer Local Oscillator IF Amplifier H 2 (f) Detector Audio Amp Common tuning f RF or f c f LO f IF fmfm fmfm Downconversion f IF = |f RF - f LO | Upconversion f IF = f RF + f LO
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S. Mandayam/ ECOMMS/ECE Dept./Rowan UniversitySummary
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