Frequency Study Resources

Most Popular Frequency Documents

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  • 12Fall_hw07

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  12Fall_hw07

  School: University Of Illinois, Urbana Champaign

  Course: ECE 210

  ECE210/211 - Fall 2012 - Homework 07 1. Consider the circuit drawn below, where the frequency response of the circuit is: H(ω) = I F . + - f(t) 0.05 F R =1Ω 0.2H i(t) (a) What is the resonant frequency of this circuit? (b) Plot |H(ω)|, and lab...

• 2 Pages

  • Miller_HW-1A

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  Miller_HW-1A

  School: Excelsior College

  Course: ELECTRICAL All

  ... Courtney Miller. 3/4/2013. 1. Find the frequency of an AC signal having the following period: a. T = 25 milliseconds (ms). ... c. T = 5 nanoseconds (ns). 2. Find the period of an AC signal having the following frequency: a. F = 500 Hz. ...

• 5 Pages

  • HW9_solutions_sp11

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  HW9_solutions_sp11

  School: University Of Illinois, Urbana Champaign

  Course: ECE 380

  1 ECE 380 Biomedical Imaging Spring 2011 Homework 9 Solutions 1) Ultrasound Resolution (15 points) Consider a focused transducer with a radius of curvature of 10 cm and a diameter of 5 cm. The transducer operates at a frequency of 2.5 MHz and tran...

• 2 Pages

  • Miller_HW-1A

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  Miller_HW-1A

  School: Excelsior College

  Course: ELECTRICAL All

  ... 1 1. Find the frequency of an AC signal having the following period: a. T = 25 milliseconds (ms) b. T = 100 microseconds (us) c. T = 5 nanoseconds (ns) 2. Find the period of an AC signal having the following frequency: a. F = 500 Hz ...

Most Recent Frequency Documents Uploaded All Recent Frequency Study Resources Documents

• 2 Pages

  • NaturalFrequencyCompleteSample

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  NaturalFrequencyCompleteSample

  School: Sharif University Of Technology

  Course: ELECTRICAL 145

• 1 Page

  • IIR_ellip.m

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  IIR_ellip.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 17 Pages

  • Introduction+to+PSpice+Frequency+and+Time+Domain+Analysis

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  Introduction+to+PSpice+Frequency+and+Time+Domain+Analysis

  School: Rutgers University

  Course: ELECTRICAL 14:332:223

• 1 Page

  • IIR_cheby2.m

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  IIR_cheby2.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

Frequency Essays View All Frequency Study Resources Essays

• 31 Pages

  • FREQUENCY RESPONSE METHOD.S

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  FREQUENCY RESPONSE METHOD.S

  School: Moi University

  Course: ECE 451

  FREQUENCY RESPONSE METHODS. Time domain approaches suffer the ... Frequency response implies the steady state response of a system to a sinusoidal input. In these methods, the frequency ...

• 4 Pages

  • Am J Clin Nutr-2000-Valensise-780-3

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  Am J Clin Nutr-2000-Valensise-780-3

  School: Florida International University

  Course: EEL 4920

  ... and fat-free mass. MF-BIA is based on the body's conduction of variable frequency (multifre- quency) to electrical current to determine total conductor volume of the body. Because water and electrolytes ...

• 6 Pages

  • Transient response for 2nd order mechanical system

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  Transient response for 2nd order mechanical system

  School: Jomo Kenyatta University Of Agriculture And Technology

  Course: EE 2513

  Deduce the state equations given that M= 1Kg , C = 3N/M , K =2 N/M and u(t) = 0. Evaluate: The characteristic equation , its roots , natural frequency and damping factor. ... (S+ 1) (S + 2) = 0. Poles: = -1, -2. Natural frequency. CE : + 3S + 2 = ...

• 4 Pages

  • Stability in Second order systems

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  Stability in Second order systems

  School: Jomo Kenyatta University Of Agriculture And Technology

  Course: EE 2513

  Q1: A second-order system is under-damped with a damping ratio of 0.4 and a natural frequency of 10Hz. Find the; Transfer function. ... H(s) =. Where: is the natural frequency. ζ is the damping coefficient. From the question, we have: ...

Frequency Homework Help View All Frequency Study Resources Homework Help

• 3 Pages

  • HW_Week_12sol

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  HW_Week_12sol

  School: University Of Southern California

  Course: ELECTRICAL 528

  ... p). The converter shown below operates near the fundamental resonant frequency of the resonant circuit having transfer function H(s). The circuit is lossless. ... transfer ratio at that frequency? (25p ...

• 1 Page

  • 15Fall_hw08

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  15Fall_hw08

  School: University Of Illinois, Urbana Champaign

  Course: ECE 210

  ... 2e−j2t + 2l. Determine its fundamental period T0, its fundamental frequency ω0, and plot it over at least two periods. 2. For ...

• 2 Pages

  • HW3-14

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  HW3-14

  School: University Of California, San Diego

  Course: ECE 107

  ECE 107: Homework 3 Due April 18 by 4:30 1) Why does Zg typically have a value of 50 – 100 Ω for most high-frequency applications? ... b) If the source frequency is increased to 750 kHz, what are VL, IL, Vin, and Iin?? ...

• 1 Page

  • Engineering Acoustics HW 9-3

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  Engineering Acoustics HW 9-3

  School: University Of Texas

  Course: EE 363N

  Engineering Acoustics Homework 9 Two point sources, separated by distance d radiate with the same amplitude, frequency, and phase. Note that for the case derived in class, the two point sources had the opposite phase. ...

Frequency Lab Reports View All Frequency Study Resources Lab Reports

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  • Simulation(No.1)-Chap.2-2014

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  Simulation(No.1)-Chap.2-2014

  School: SUNY Buffalo State College

  Course: EE 310

  Multisim (optional: PSpice) Simulation No.1 Frequency Response of Closed-Loop 741 OPAMP Circuit ... Perform the AC sweep simulation and find the f-3dB frequency from simulation.. ...

• 12 Pages

  • Lab Report 08-2

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  Lab Report 08-2

  School: Iowa State University

  Course: EE 224

  EE224 SECTIONA FrequencyResponse LabReportNo.8 Tielong Su Introduction In this weeks lab we learnt how to use Matlab to manipulate frequency response. ... EE 224 section A. Frequency Response. Lab Report No. 8. Tielong Su. ...

• 6 Pages

  • lab1 report

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  lab1 report

  School: California Polytechnic State University, Pomona

  Course: ECE 205L

  ... Sacco. By: David Laverde. October 31, 2006. Theory. During this experiment we will create a device called Signal Generator with a frequency controller. ... A i = 1 + cos (b). where b is our frequency b = (360 / 255 ) i and i = 0,1,2,3, …..255...

• 3 Pages

  • ET115week1lab

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  ET115week1lab

  School: Grantham University

  Course: EE 115

  Frequency = 100 Hz, Period of VT =0.01s. VR1 =15V. VR2 =45V. Frequency = 1000 Hz, Period of VT =0.001s. VR1 =15V. VR2 =45V. ...

Frequency Lecture Slides View All Frequency Study Resources Lecture Slides

• 17 Pages

  • 8. Frequency Response Method

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  8. Frequency Response Method

  School: California Baptist University

  Course: EGR 431

• 43 Pages

  • Lect31_TLs_Frequency_domain_Gong

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  Lect31_TLs_Frequency_domain_Gong

  School: University Of Illinois, Urbana Champaign

  Course: ECE 329

Frequency Notes View All Frequency Study Resources Notes

• 1 Page

  • 12Fall_hw07

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  12Fall_hw07

  School: University Of Illinois, Urbana Champaign

  Course: ECE 210

  ECE210/211 - Fall 2012 - Homework 07 1. Consider the circuit drawn below, where the frequency response of the circuit is: H(ω) = I F . + - f(t) 0.05 F R =1Ω 0.2H i(t) (a) What is the resonant frequency of this circuit? (b) Plot |H(ω)|, and lab...

• 5 Pages

  • HW9_solutions_sp11

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  HW9_solutions_sp11

  School: University Of Illinois, Urbana Champaign

  Course: ECE 380

  1 ECE 380 Biomedical Imaging Spring 2011 Homework 9 Solutions 1) Ultrasound Resolution (15 points) Consider a focused transducer with a radius of curvature of 10 cm and a diameter of 5 cm. The transducer operates at a frequency of 2.5 MHz and tran...

• 2 Pages

  • 714ps5

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  714ps5

  School: Ohio State University

  Course: ECE 714

  PROBLEM SET 5 ECE 714 Winter Quarter 2010 Assigned: February 17th Due: February 26th in class Instructor: Joel Johnson Problem 1 A radar system operates at a center frequency of 6.5 GHz, and uses a 1.5 kHz prf. (a) Find the unambiguous range of th...

• 6 Pages

  • tele-master-exam

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  tele-master-exam

  School: Central Saint Martins

  Course: ELEC 223

  Question one: Suppose cell sites having the following characteristics: Handset Transmitter Power: 23 dBm , Base Station Height: 30 m. Handset User height: 1.5 m , Base Station Antenna gain: 14 dBi. Handset Antenna Gain: 0 dBi, Frequency: 1960 MHz....

Frequency Test Prep View All Frequency Study Resources Test Prep

• 4 Pages

  • ECE464SampleTest2

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  ECE464SampleTest2

  School: University Of Illinois, Urbana Champaign

  Course: ECE 464

  1 . A midpoint rectifier converts load. The load resistance is sinusoidal, with a frequency neutral) of 120 V. ... 3. ln the dc-dc converter shown, the switching frequency is bo kHz. 2,-lv /oo¿ ...

• 12 Pages

  • final_solsFall2013

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  final_solsFall2013

  School: University Of California, Los Angeles

  Course: EE 113

  ... 1. (10 PTS; sampling theory) Consider the following LTI system operating with a sampling frequency equal to Fs KHz: ... (b) If a tone at 4 KHz is attenuated by 2/√13, can you tell what the sampling frequency Fs is? ...

• 4 Pages

  • solnsmid2_600WI2010

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  solnsmid2_600WI2010

  School: Ohio State University

  Course: ECE 5200

  ... (a) Since the signal is bandlimited to less than half of the sampling frequency, there will be no aliasing. ... This imples that a frequency component at f Hz in x(t) will map to ω = 2πfT rad/sample, with its amplitude multiplied by 1 ...

• 2 Pages

  • ECE 316 Winter 2013 Quiz 2 Solutions

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  ECE 316 Winter 2013 Quiz 2 Solutions

  School: University Of Toronto

  Course: ECE 316

  ... Take the sinusoid to be a cosine: In the following we have taken the carrier frequency to be 10 times the frequency of the message. ... The output is. Now this signal consists of a dc value plus a bandpass FM signal with carrier frequency . ...

Most Recent Frequency Documents Uploaded

• 2 Pages

  • NaturalFrequencyCompleteSample

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  NaturalFrequencyCompleteSample

  School: Sharif University Of Technology

  Course: ELECTRICAL 145

• 1 Page

  • IIR_ellip.m

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  IIR_ellip.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 17 Pages

  • Introduction+to+PSpice+Frequency+and+Time+Domain+Analysis

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  Introduction+to+PSpice+Frequency+and+Time+Domain+Analysis

  School: Rutgers University

  Course: ELECTRICAL 14:332:223

• 1 Page

  • IIR_cheby2.m

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  IIR_cheby2.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 1 Page

  • IIR_filtered signal.jpg

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  IIR_filtered signal.jpg

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 1 Page

  • IIR_cheby1.m

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  IIR_cheby1.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 1 Page

  • IIR_butter.m

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  IIR_butter.m

  School: Multimedia University, Cyberjaya

  Course: ENGINEERIN 103

• 13 Pages

  • Linear_Phase

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  Linear_Phase

  School: University Of California, San Diego

  Course: ECE 161A

• 1 Page

  • Homework7_stats

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  Homework7_stats

  School: New York University

  Course: E 2001

• 36 Pages

  • Concepts Screenshots Week 13

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  Concepts Screenshots Week 13

  School: University Of Wisconsin

  Course: ECE 330

• 9 Pages

  • 15FrequencyAnalysisPart2

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  15FrequencyAnalysisPart2

  School: University Of Wisconsin

  Course: ECE 203

• 11 Pages

  • 08AmplitudeModulationAndFilterDesignWdemos

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  08AmplitudeModulationAndFilterDesignWdemos

  School: University Of Wisconsin

  Course: ECE 203

• 21 Pages

  • Concepts Screenshots Week 8

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  Concepts Screenshots Week 8

  School: University Of Wisconsin

  Course: ECE 330

• 12 Pages

  • 14FrequencyAnalysisPart1wDemos2015_12_07

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  14FrequencyAnalysisPart1wDemos2015_12_07

  School: University Of Wisconsin

  Course: ECE 203

• 33 Pages

  • Review for Test 2

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  Review for Test 2

  School: York University

  Course: EECS 1520

• 34 Pages

  • scaglione_capacity

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  scaglione_capacity

  School: The Hong Kong University Of Science And Technology

  Course: ELEC 1100

Frequency Essays

• 31 Pages

  • FREQUENCY RESPONSE METHOD.S

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  FREQUENCY RESPONSE METHOD.S

  School: Moi University

  Course: ECE 451

  FREQUENCY RESPONSE METHODS. Time domain approaches suffer the ... Frequency response implies the steady state response of a system to a sinusoidal input. In these methods, the frequency ...

• 4 Pages

  • Am J Clin Nutr-2000-Valensise-780-3

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  Am J Clin Nutr-2000-Valensise-780-3

  School: Florida International University

  Course: EEL 4920

  ... and fat-free mass. MF-BIA is based on the body's conduction of variable frequency (multifre- quency) to electrical current to determine total conductor volume of the body. Because water and electrolytes ...

• 6 Pages

  • Transient response for 2nd order mechanical system

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  Transient response for 2nd order mechanical system

  School: Jomo Kenyatta University Of Agriculture And Technology

  Course: EE 2513

  Deduce the state equations given that M= 1Kg , C = 3N/M , K =2 N/M and u(t) = 0. Evaluate: The characteristic equation , its roots , natural frequency and damping factor. ... (S+ 1) (S + 2) = 0. Poles: = -1, -2. Natural frequency. CE : + 3S + 2 = ...

• 4 Pages

  • Stability in Second order systems

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  Stability in Second order systems

  School: Jomo Kenyatta University Of Agriculture And Technology

  Course: EE 2513

  Q1: A second-order system is under-damped with a damping ratio of 0.4 and a natural frequency of 10Hz. Find the; Transfer function. ... H(s) =. Where: is the natural frequency. ζ is the damping coefficient. From the question, we have: ...

• 8 Pages

  • design of differential LNA

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  design of differential LNA

  School: Indian Institute Of Technology, Kharagpur

  Course: ECE 1

  ... We have to find the final value of capacitor from the frequency equation. And from the frequency condition the final value is coming to be 0.81 pF. ... From the frequency tuning equation putting all the values we are getting L g =12.3 nH. ...

• 10 Pages

  • Bahador+Zuhuri-Kalkenari+Essay+2+English+101

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  Bahador+Zuhuri-Kalkenari+Essay+2+English+101

  School: American Public University

  Course: ENG 101

  [Type text]. Instructor K. Frank. English 101. October 11, 2015. Global Warming is Increasing the Intensity and Frequency of Natural Disasters. ...

• 15 Pages

  • Electrical_Engineering transformer

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  Electrical_Engineering transformer

  School: Engineering College

  Course: ELECTRICAL 105

  ... An AC device used to change high voltage low current AC into low voltage high current AC and vice-versa without changing the frequency. In brief,. ...

• Pages

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  Narrative #2. The information that I need to know about the problem/ situation is what frequency gain is required to bring the client's threshold of hearing to that of the normal threshold of hearing. ...

• 8 Pages

  • 2025-L24

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  2025-L24

  School: Georgia Institute Of Technology

  Course: ECE 2025

  Frequency Allocation (Govt) http:/www.ntia.doc.gov/osmhome/ allochrt.pdf ECE-2025 Fall-2008 Lecture 24 Amplitude Modulation (AM) 24-Nov-08 11/19/2008 Info: Lab and HW ECE-2025 Fall-08 jMc-BHJ 2 Pop Quiz e 2t u (t ) (t + 1 ...

• 7 Pages

  • 2025-L15

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  2025-L15

  School: Georgia Institute Of Technology

  Course: ECE 2025

  READING ASSIGNMENTS ECE-2025 Fall-2008 This Lecture: Chapter 7, Section 7-6 to end Lecture 15 Zeros of H(z) and the Frequency Domain 20-Oct-08 Other Reading: Recitation & Lab: Chapter 7 ZEROS (and POLES) Next Lecture ...

• 9 Pages

  • 2025-L17

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  2025-L17

  School: Georgia Institute Of Technology

  Course: ECE 2025

  Info: Lab, HW, etc. ECE-2025 Fall-2008 Labs: DLTIDEMO has a bug in Phase Slope for Ideal Filters Lecture 17 H(z) & Frequency Response for IIR Systems 27-Oct-08 Lab #9 will start on Wed, 29-Oct. ... H(z) & Frequency Response ...

• 1 Page

  • Mcgraw Hill - Digital Communic Proakis (928P) (digital comm) 235

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  Mcgraw Hill - Digital Communic Proakis (928P) (digital comm) 235

  School: University Of Texas

  Course: EE 5352

  FIGURE 4-3·6 Subdivision of lime and frequency axes into distinct slots. f. .r.,+ 411[ ~-~-. r., + 311/ ----1. ... NT seco nd s O N t im es l o t s ) . Alternatively, a frequency band of width N t:.f may be subdivided into N. ...

• 18 Pages

  • 1

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  1

  School: King Fahd University Of Petroleum & Minerals

  Course: EE 200

  ... I. INTRODUCTION ORTHOGONAL frequency division multiplexing (OFDM) has been widely accepted in modern wireless communi- cation systems due to its robustness against frequency selectiv- ity in wireless channels [1]–[3]. In ...

• 4 Pages

  • ECE265APaper11

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  ECE265APaper11

  School: University Of California, San Diego

  Course: ECE 265

  TU2C-3 A frequency doubler with high conversion gain and good fundamental suppression ... Abstract - A novel frequency doubler archi- tecture with high conversion gain and high sup- pression .of the input frequency is presented. ...

• 1 Page

  • Term Paper Broadcasting

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  Term Paper Broadcasting

  School: University Of Southern California

  Course: ENGINEERIN 1

  ... Title. Overview of the Title. Introduction of the Broadcast Station. Specific Objective of the Station. Name of FM or AM Station. Frequency. Bandwidth. Location (Studio & Transmitter). Area of Coverage. Broadcast License Classification. ...

• 32 Pages

  • 3Introduction_to_Modulation

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  3Introduction_to_Modulation

  School: NIT Trichy

  Course: ECE 202

  ... The message signal m(t) is transmitted through the communication channel by impressing it on a carrier signal of the form. where A c is the carrier amplitude, f c the carrier frequency, and the carrier phase. ... Frequency translation. ...

Frequency Homework Help

• 3 Pages

  • HW_Week_12sol

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  HW_Week_12sol

  School: University Of Southern California

  Course: ELECTRICAL 528

  ... p). The converter shown below operates near the fundamental resonant frequency of the resonant circuit having transfer function H(s). The circuit is lossless. ... transfer ratio at that frequency? (25p ...

• 1 Page

  • 15Fall_hw08

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  15Fall_hw08

  School: University Of Illinois, Urbana Champaign

  Course: ECE 210

  ... 2e−j2t + 2l. Determine its fundamental period T0, its fundamental frequency ω0, and plot it over at least two periods. 2. For ...

• 2 Pages

  • HW3-14

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  HW3-14

  School: University Of California, San Diego

  Course: ECE 107

  ECE 107: Homework 3 Due April 18 by 4:30 1) Why does Zg typically have a value of 50 – 100 Ω for most high-frequency applications? ... b) If the source frequency is increased to 750 kHz, what are VL, IL, Vin, and Iin?? ...

• 1 Page

  • Engineering Acoustics HW 9-3

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  Engineering Acoustics HW 9-3

  School: University Of Texas

  Course: EE 363N

  Engineering Acoustics Homework 9 Two point sources, separated by distance d radiate with the same amplitude, frequency, and phase. Note that for the case derived in class, the two point sources had the opposite phase. ...

• 5 Pages

  • homework05_solution

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  homework05_solution

  School: University Of Wisconsin

  Course: ECE 711

  ... A four-pole, wye-connected wound-rotor induction machine is being used as a frequency converter to supply a three-phase 60 Hz load (ωs = 377 rad/s) from a three-phase 70 Hz supply (ωr = 440 rad/s) as shown in the figure. ...

• 3 Pages

  • HW4

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  HW4

  School: Purdue University

  Course: ECE 45500

  HW4 - ECE455 Due date: Oct 15th Problem 1 Assume a simple high frequency model for NMOS transistors in this problem as depicted in the figure. ... Problem 3: Calculate the noise figure of the following circuit as a function of frequency. ...

• 2 Pages

  • HW4

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  HW4

  School: University Of Illinois, Urbana Champaign

  Course: ECE 310

  University of Illinois Fall 2014 ECE 310: Problem Set 4 Sampling, Ideal A/D converter, Aliasing, Analog frequency response of a digital system Due: Wednesday September 24 at 6 pm Reading: 310 Course Notes Ch 3.1, 3.2, 5.3 ...

• 3 Pages

  • MATLAB Assignment 5

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  MATLAB Assignment 5

  School: Worcester Polytechnic Institute

  Course: ECE 2010

  clear all. t = 0:0.5e-3:0.30; % time array, s. f = 25; % frequency, Hz. ... clear all. t = 0:0.5e-3:0.30; % time array, s. f = 25; % frequency, Hz. ...

• 6 Pages

  • electronic properties(ch11)

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  electronic properties(ch11)

  School: University Of Wisconsin

  Course: EECE 456

  Chapter 11 1. Calculate the reflectivity of sodium in the frequency ranges ν > ν1 and ν < ν1 using the theory for free electrons without damping. sketch R versus frequency    ...

• 4 Pages

  • EECS216+WN10+HW9

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  EECS216+WN10+HW9

  School: University Of Michigan

  Course: EECS 216

  ... 4230 EECS). 1. (a) A LTI system has the following frequency transfer function H(j ) = (j +10)(10 j +1) [(j /100) +1][(j )2 + j +1] Generate the magnitude and phase Bode plots of H(j ) using Matlab. (b ...

• 6 Pages

  • HW3 solutions

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  HW3 solutions

  School: Texas A&M University

  Course: ECEN 410

  ... Ultrasound transducer can generate high frequency sound waves and evaluate the echo which is received back. ... 9. What determines the lateral resolution: diameter of transducer and frequency (and the depth of imaging) ...

• 2 Pages

  • Hw-3-S14

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  Hw-3-S14

  School: University Of California, Los Angeles

  Course: EE 216B

  ... The normalized frequency π refers to the Nyquist baseband frequency fs/2. ... f) Apply a sinusoidal input of amplitude 1 and frequency 0.5π to your filter model in (d). Plot the input and output waveforms. What is the amplitude of the output...

• 1 Page

  • EE424 HW_6

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  EE424 HW_6

  School: Pennsylvania State University

  Course: EE 424

  ... A laser with a cross-sectional area equal to the tube, and a frequency close to the resonance frequency of the atoms is incident on this system. ...

• 32 Pages

  • Answers_Basic_Problems_Ch05

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  Answers_Basic_Problems_Ch05

  School: Ohio State University

  Course: ECE 750

  ... Basic Problems 23. (a) Solution: The frequency response is H(ejω) = b 1 - 0.8e-jω - 0.81e-2jω ... 51 25. (a) Solution: The frequency response is: ...

• 8 Pages

  • HW5_AU14_Solution

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  HW5_AU14_Solution

  School: Ohio State University

  Course: ECE 5021

  ... Consider the problem of mixing with the LO phase noise as shown below. The carrier frequency is set at 1GHz. ... a) Calculate the phase noise at 5 kHz offset from the carrier Solution: ▪ For fC ≤ f ≤ fC + 10 KHz ( fC → Carrier Frequenc...

• 2 Pages

  • Final_SP10_Class_Problems

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  Final_SP10_Class_Problems

  School: Pennsylvania State University

  Course: EE 360

  ... sin 10 10 cos 999 cos4 +⋅ + = . a) Determine the frequency deviation: b) Determine the bandwidth of ( )t EM φ : c) Determine the power of ( )t EM φ : ...

Frequency Lab Reports

• 1 Page

  • Simulation(No.1)-Chap.2-2014

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  Simulation(No.1)-Chap.2-2014

  School: SUNY Buffalo State College

  Course: EE 310

  Multisim (optional: PSpice) Simulation No.1 Frequency Response of Closed-Loop 741 OPAMP Circuit ... Perform the AC sweep simulation and find the f-3dB frequency from simulation.. ...

• 12 Pages

  • Lab Report 08-2

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  Lab Report 08-2

  School: Iowa State University

  Course: EE 224

  EE224 SECTIONA FrequencyResponse LabReportNo.8 Tielong Su Introduction In this weeks lab we learnt how to use Matlab to manipulate frequency response. ... EE 224 section A. Frequency Response. Lab Report No. 8. Tielong Su. ...

• 6 Pages

  • lab1 report

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  lab1 report

  School: California Polytechnic State University, Pomona

  Course: ECE 205L

  ... Sacco. By: David Laverde. October 31, 2006. Theory. During this experiment we will create a device called Signal Generator with a frequency controller. ... A i = 1 + cos (b). where b is our frequency b = (360 / 255 ) i and i = 0,1,2,3, …..255...

• 3 Pages

  • ET115week1lab

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  ET115week1lab

  School: Grantham University

  Course: EE 115

  Frequency = 100 Hz, Period of VT =0.01s. VR1 =15V. VR2 =45V. Frequency = 1000 Hz, Period of VT =0.001s. VR1 =15V. VR2 =45V. ...

• 12 Pages

  • EECE 356 Mini Project 1 2014W

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  EECE 356 Mini Project 1 2014W

  School: University Of British Columbia

  Course: EECE 356

  ... Part I A. Because larger capacitor close at lower frequency, given that C1 > C2 > C3, we know that: C1 has the pole at ωp1 = 10 rad/sec. ... A. To estimate the cut-‐off frequency of this filter, we use the method of SC/OC time constan...

• 1 Page

  • lab_1

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  lab_1

  School: Bilkent University

  Course: EEE 202

  EEE 202 CIRCUIT THEORY LAB 1 Quality Factor of an Inductor Design at least two methods to measure the inductance and the quality factor of an inductor at a given frequency. Figure 1: Inductor ...

• 1 Page

  • Lab3.m

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  Lab3.m

  School: Georgia Institute Of Technology

  Course: ECE 2026

  %% 3.1 Matlab Structure for Beat Signals sigBeat.Amp = 10; %-- B in Equation (3) sigBeat.fc = 440; %-- center frequency in Eq. (3) sigBeat.phic = 0; %-- phase of 2nd sinusoid in Eq. (3) sigBeat.fDelt = 30; %-- modulating frequency in Eq. ...

• 16 Pages

  • Series Resonant Circuits

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  Series Resonant Circuits

  School: College Of New Jersey

  Course: ENG 3351

  ... EXPERIMENT ac Series Resonant Circuits OBJECTIVES 12 1. Validate the basic equation for the resonant frequency of a series resonant circuit. 2. Plot the various voltages and current for a series resonant circuit versus frequency. ...

• 8 Pages

  • Frequency Representation and Spectral Analysis Lab Guidelines

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  Frequency Representation and Spectral Analysis Lab Guidelines

  School: University Of Illinois, Urbana Champaign

  Course: ECE 311

  ... LAB 2: Frequency Representation and Spectral Analysis Fall 2015 ... Also, Xd(ω) can be computed only at a discrete set of frequency samples, wk. ...

• 1 Page

  • Oscilloscope Lab Report Final.27

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  Oscilloscope Lab Report Final.27

  School: University Of California, Los Angeles

  Course: EE 110

  Figure B12: Frequency and Phase Relationship High Pass R/L Filter (Semi-log X-Axis) We can see in Figure B12 ...

• 15 Pages

  • Lab5

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  Lab5

  School: University Of Washington

  Course: EE 235

  ... Page 1 of 15 University of Washington Department of Electrical Engineering EE 235 Lab 5: Time Domain to Frequency Domain In this lab, we will learn how to transform signals in Matlab from the time domain to the frequency domain. ...

• 14 Pages

  • lab3

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  lab3

  School: Carnegie Mellon University

  Course: ECE 100

  ... A filter is a device used to remove unwanted frequency components from a signal. ... As their names imply, high pass filters allow all signals above a certain frequency, and low-pass filters allow all signals below a certain frequency. ...

• 3 Pages

  • ET222-Week-4-Lab 4

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  ET222-Week-4-Lab 4

  School: Grantham University

  Course: EE 222

  Calculate the input-coupling circuit and output-coupling circuit low-frequency cutoff points for the circuit shown below. Connect ...

• 9 Pages

  • lab2sp2014

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  lab2sp2014

  School: University Of Illinois, Urbana Champaign

  Course: ECE 311

  ... ECE 311: Digital Signal Processing Lab LAB 2: Frequency Representation and Spectral Analysis Spring 2014 ... The objective is to help you learn how to interpret and analyze digital signals in the frequency domain. Key concepts: ...

• 6 Pages

  • ECE205L Frequency Meter Lab Report

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  ECE205L Frequency Meter Lab Report

  School: California Polytechnic State University, Pomona

  Course: ECE 205L

  Frequency Meter. By Jade Thiemsuwan. Partner: David Deichsel. Dr. Toma Sacco. ECE205L. ... Date Performed: August 15, 2006. Theory. In this experiment we would like to create a device that will measure the frequency of an input signal. ...

• 8 Pages

  • ECE 306L Prelab #2

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  ECE 306L Prelab #2

  School: California Polytechnic State University, Pomona

  Course: ECE 306

  ... Prelab 1. Given a rectangular pulse train with peak-to-peak amplitude A = 2V, period T0 = 1ms, pulse width a = 0.5ms, dc offset zero volt a. Find the fundamental frequency f0 = 1/T0, ... c. Plot cn in dBV as a function of frequency f for ...

Frequency Lecture Slides

• 17 Pages

  • 8. Frequency Response Method

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  8. Frequency Response Method

  School: California Baptist University

  Course: EGR 431

• 43 Pages

  • Lect31_TLs_Frequency_domain_Gong

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  Lect31_TLs_Frequency_domain_Gong

  School: University Of Illinois, Urbana Champaign

  Course: ECE 329

Frequency Notes

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  • 12Fall_hw07

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  12Fall_hw07

  School: University Of Illinois, Urbana Champaign

  Course: ECE 210

  ECE210/211 - Fall 2012 - Homework 07 1. Consider the circuit drawn below, where the frequency response of the circuit is: H(ω) = I F . + - f(t) 0.05 F R =1Ω 0.2H i(t) (a) What is the resonant frequency of this circuit? (b) Plot |H(ω)|, and lab...

• 5 Pages

  • HW9_solutions_sp11

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  HW9_solutions_sp11

  School: University Of Illinois, Urbana Champaign

  Course: ECE 380

  1 ECE 380 Biomedical Imaging Spring 2011 Homework 9 Solutions 1) Ultrasound Resolution (15 points) Consider a focused transducer with a radius of curvature of 10 cm and a diameter of 5 cm. The transducer operates at a frequency of 2.5 MHz and tran...

• 2 Pages

  • 714ps5

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  714ps5

  School: Ohio State University

  Course: ECE 714

  PROBLEM SET 5 ECE 714 Winter Quarter 2010 Assigned: February 17th Due: February 26th in class Instructor: Joel Johnson Problem 1 A radar system operates at a center frequency of 6.5 GHz, and uses a 1.5 kHz prf. (a) Find the unambiguous range of th...

• 6 Pages

  • tele-master-exam

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  tele-master-exam

  School: Central Saint Martins

  Course: ELEC 223

  Question one: Suppose cell sites having the following characteristics: Handset Transmitter Power: 23 dBm , Base Station Height: 30 m. Handset User height: 1.5 m , Base Station Antenna gain: 14 dBi. Handset Antenna Gain: 0 dBi, Frequency: 1960 MHz....

• 8 Pages

  • 350fall11hw12sol

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  350fall11hw12sol

  School: University Of Illinois, Urbana Champaign

  Course: ECE 350

  ECE 350 Homework 12 — Solution Due: Tue, Nov 15, 2011, 5PM 1. As mentioned, X-band is between 8.2 ≤ f ≤ 12.4 GHz. Recall, the cutoff frequency for the rectangular waveguide is given as fc = √(mc 2a ) 2 + (nc2b) 2 , (1) where when f > fc ...

• 2 Pages

  • hw 1 solutions

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  hw 1 solutions

  School: University Of Illinois, Urbana Champaign

  Course: ECE 455

  ECE 455: Optical Electronics Homework 1 Solutions 1 Photon Energy, Frequency, and Wavelength Source eV λ (nm) λ (Å) ν (Hz) ν (cm−1) DVD Laser Diode 1.907 650.2 6502 4.611 × 1014 1.538 × 104 Ar+ 2.728 454.6 4546 6.600 × 1014 2.200 × 104 ...

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  • hwk_duck_sum13_04

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  hwk_duck_sum13_04

  School: Georgia Institute Of Technology

  Course: ECE 3043

  ... 4 for Experiment No. 4 Due Second Meeting Week of June 10 1. For the circuit shown below, use both National Instruments and LT SPICE to plot the magnitude and phase of the voltage vo(t) as a function of frequency (frequency log, mag lin, phase...

• 1 Page

  • HW4S

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  HW4S

  School: Ohio State University

  Course: ECE 714

  ps4_3a.m. close all; clear all; f0 =100e6; % Starting frequency of chirp (Hz). N =32768; % Number of points to sample pulse. tau=2e-6; % Pulse duration (seconds). B=10e6; % Student input: Bandwidth of chirp (Hz). dt=2*tau/N; % Setup time axis. t=(...

• 11 Pages

  • EE567_Fall_2012_HW6_Solutions(1)

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  EE567_Fall_2012_HW6_Solutions(1)

  School: University Of Southern California

  Course: EE 567

  EE 567 Homework 6 Solutions Problem 1. Consider a first-order PLL as described in class, ie, the loop filter is H(f) = 1. Then Φe(f) = 1 1 + K0/jf Φ1(f). We wish to investigate the loop behavior in the presence of a frequency modulated input. We...

• 11 Pages

  • ECE5021_Final_Exam_Solution

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  ECE5021_Final_Exam_Solution

  School: Illinois State University

  Course: ECE 5021

  ECE 5021 Final Exam Solutions (SP/13) Prob. 1. A common-source stage is shown below with high-frequency components. (a) Determine the Transfer Function Vout(s) Vin(s) The small signal model of the common-source stage with all of the capacitances i...

• 8 Pages

  • Lab Report #6

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  Lab Report #6

  School: San Jose State University

  Course: ELECTRICAL 97

  EE 97 Fall 2010. Tuesday 1330. Lab #6: Frequency Response. Omar Bravo. Parnter: Satnam. Station #9. 9 November 2010. Experiment 1. We connected the function generator to the stereo audio amplifier and the oscilloscope. ... (We made sure the L-Ch s...

• 9 Pages

  • Project1_sol_f08

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  Project1_sol_f08

  School: Purdue University

  Course: ECE 547

  ... 1b) P(U > x) for values of x (0.5,1) can be plotted as the following: Figure 1 P(U>x) In order to calculate P (U>x), the interval [0, 1] is divided into intervals of width 0.01. For each value of xi the corresponding frequency fi out ...

• 6 Pages

  • HW 1 solutions

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  HW 1 solutions

  School: Georgia Institute Of Technology

  Course: ECE 3065

  Problem 1: (a) The Amplitude is 1.5 Volts at spatial position x = 0m. It has an attenuation of . The Period, The frequency is 1/T = 108 Hz = 100 MHz The wavelength, λ=c/f=3m The phase, ϕ = π/3 rad The attenuation factor, α = .0005 Np/m (assumi...

• 3 Pages

  • EE3302_Quiz1_Fall2012

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  EE3302_Quiz1_Fall2012

  School: University Of Texas, Arlington

  Course: EE 3302

  Fundamentals of Power Systems F,F.3302 Quiz 1 Fall 2012 8-24-2012 Name:... Mav-ID. ...flnsde.r: ..S\rsfr fo P 1. Suppose that a sinusoidal voltage is given by v(t) - 150 cos(200 nt - 30" ) Find the frequency in hertzo the periodo the peak val...

• 2 Pages

  • 20131ee114_1_CA2_W13

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  20131ee114_1_CA2_W13

  School: University Of California, Los Angeles

  Course: EE 114

  UCLA Dept. of Electrical Engineering EE 114, Winter 2013 Computer Assignment 2: Frequency and Time Analysis of Speech Due: January 23, 2013 Introduction: The goal of this assignment is to learn the purpose of pre-emphasis filters in speech analysi...

• 3 Pages

  • EM350 midterm Problem 3

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  EM350 midterm Problem 3

  School: Iowa State University

  Course: EM 350

  Problem 3. This problem involved creating a function called spectral_props that takes the input sample signal and time interval, and returns -6dB bandwidth center frequency and percentage the bandwidth is of the center frequency. My code goes thro...

Frequency Test Prep

• 4 Pages

  • ECE464SampleTest2

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  ECE464SampleTest2

  School: University Of Illinois, Urbana Champaign

  Course: ECE 464

  1 . A midpoint rectifier converts load. The load resistance is sinusoidal, with a frequency neutral) of 120 V. ... 3. ln the dc-dc converter shown, the switching frequency is bo kHz. 2,-lv /oo¿ ...

• 12 Pages

  • final_solsFall2013

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  final_solsFall2013

  School: University Of California, Los Angeles

  Course: EE 113

  ... 1. (10 PTS; sampling theory) Consider the following LTI system operating with a sampling frequency equal to Fs KHz: ... (b) If a tone at 4 KHz is attenuated by 2/√13, can you tell what the sampling frequency Fs is? ...

• 4 Pages

  • solnsmid2_600WI2010

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  solnsmid2_600WI2010

  School: Ohio State University

  Course: ECE 5200

  ... (a) Since the signal is bandlimited to less than half of the sampling frequency, there will be no aliasing. ... This imples that a frequency component at f Hz in x(t) will map to ω = 2πfT rad/sample, with its amplitude multiplied by 1 ...

• 2 Pages

  • ECE 316 Winter 2013 Quiz 2 Solutions

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  ECE 316 Winter 2013 Quiz 2 Solutions

  School: University Of Toronto

  Course: ECE 316

  ... Take the sinusoid to be a cosine: In the following we have taken the carrier frequency to be 10 times the frequency of the message. ... The output is. Now this signal consists of a dc value plus a bandpass FM signal with carrier frequency . ...

• 2 Pages

  • EE450_Midterm_Fall2009_Solutions

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  EE450_Midterm_Fall2009_Solutions

  School: University Of Southern California

  Course: EE 450

  ... Networks” Solutions: Midterm Exam 1. F, F, T, F, F, F, T, T, T, F, T, T, F, T, F, F, F, T, F, F, T, F, F, T, T 2. 24Mbps, 1 frequency, 100 calls, 75dB, 800 Bits, 2 users, 500Kbits, 7 bits, 400Kframes/sec, 2.5μsec ...

• 5 Pages

  • test 3

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  test 3

  School: Clemson University

  Course: ECE 2070

  ... Question 2. The plot shows the magnitude of the impedance as the frequency of the voltage source is varied. ... What is the radian frequency? ...

• 4 Pages

  • Examples1

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  Examples1

  School: University Of Malaya

  Course: ENGINEERIN Keew2101

  ... Assuming that |k a m(t)|< 1 for all t and the message signal m(t) is limited to the interval -W ≤ f ≤ W and that the carrier frequency f c > 2W show that m(t) can be obtained from the square-rooter output v 3 (t). Answer: ...

• 5 Pages

  • Sample Midterm

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  Sample Midterm

  School: Iowa State University

  Course: EE 324

  Given an LTI system: a. Find the system frequency response of this system, put the result in phase-magnitude form. b. Find the system response, y[n], to the input: c. What type of filter is this system? (low-pass, high-pass, or band-pass), support...

• 1 Page

  • Quiz 1 Solutions

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  Quiz 1 Solutions

  School: Georgia Institute Of Technology

  Course: ECE 3741

  Name: Lab Section (Day & Time): ECE 3741 Quiz #1 This quiz is worth 10 pts and is closed-book. You have 10 minutes to finish. 1. What is the formula for the cutoff-frequency, or f0, that you used in the previous lab? [2]. RC f π2 1 0 = ...

• 4 Pages

  • Midterm 2

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  Midterm 2

  School: University Of Victoria

  Course: ELEC 350

  ... non-programmable calculator OK, total marks 28 Question 1 Consider a complex QPSK signal in complex notation at a non-zero carrier frequency. ...

• 13 Pages

  • ecet345-final_0

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  ecet345-final_0

  School: Kenyatta University

  Course: ENGINEERIN 56789

  Question 1. 1. (TCO 1) A sinusoidal signal has an amplitude of 10, frequency of 2 Hz, and initial phase of 60 degrees. ... Spectrum measurement is a sampling at regular intervals in frequency over a limited frequency range. ...

• 2 Pages

  • 902oscar_exam2_cheatsheet

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  902oscar_exam2_cheatsheet

  School: Royal Melbourne Institute Of Technology

  Course: ENGINEERIN 2136

  Oscar Han Physics Unit 4 Cheat Sheet: Light Fringe spacing: Fringe spacing is the distance from the centre of one bright band to the centre of the next bright band: Formulae (particle properties): W (higher frequency; smaller ooo Property ...

• 8 Pages

  • 13bec0388__L35+36__TASK4

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  13bec0388__L35+36__TASK4

  School: VIT University Dubai

  Course: ELECTRONIC Ece307

  ... OBJECTIVE. For the given frequency f=5Ghz, Characterestic Impedance Z0=100Ω,to design and simulate the Rat-race Coupler. ... The rat race coupler designed has S21-S31 ~ 180 0 at frequency 4.9 Ghz. Simulation by microwave office. ...

• 2 Pages

  • Quiz_9_S13_BJT_and_MOSFET_High_Frequency_Response

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  Quiz_9_S13_BJT_and_MOSFET_High_Frequency_Response

  School: California State University, Northridge

  Course: ECE 340

  ... SPRING 2013. QUIZ 9. Name_____. Problem One. 25pF. 8.2kΩ. 1kΩ. 75kΩ. v sig. V DD. M1. Find the high cutoff frequency for this amplifier. Problem Two. Find the high cutoff frequency for this amplifier.

• 2 Pages

  • Quiz_8_BJT_and_MOSFET_Frequency_Response

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  Quiz_8_BJT_and_MOSFET_Frequency_Response

  School: California State University, Northridge

  Course: ECE 340

  ... 5V. 1uF. 10uF. 300kΩ. 50kΩ. M 1. +. v o. -. Find the low cutoff frequency for this amplifier. Problem Two. 50Ω. Q 1. 5kΩ. -5V. +5V. VCC. 10kΩ. 100uF. v o. 47uF. +. v i. -. v sig. 20kΩ. 0.01uF. 30kΩ. 10kΩ. Find the low cutoff fr...

• 8 Pages

  • datasheet

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  datasheet

  School: University Of Phoenix

  Course: EE 791

  ... PreliminaryData Sheet 2SC4226 NPN Silicon RF Transistor NPN Epitaxial Silicon RF Transistor for High-Frequency Low-Noise Amplification 3-pin super Minimold ... INSERTION POWER GAIN vs. FREQUENCY Insertion Power Gain |S ...