FUMC Sound Tech Course Session 3 Microphones, Speakers & Spkr Systems, Amplifiers This is a BLOCK DIAGRAM Handheld/Vocal Close range for individual singer/speaker UniDirectional - Cardioid or Hypercardioid pattern Feedback rejection Lavalier Close range Omni or Cardioid pattern Small

ByMechanische trillingen. LES 4 – TRILLINGSOPNEMERS. Patrick Guillaume E-mail: patrick.guillaume@vub.ac.be Tel.: 02/6293566. The Measurement Chain. Displacement, Velocity or Acceleration?. Conversion from Displacement to Acceleration.

ByPractical reasoning about control Ursula Martin Queen Mary University of London/University of Cambridge www.cl.cam.ac.uk/~um200 With Ruth Hardy, Richard Boulton Thanks to Qinetiq. Outline of talk What is control and why do we want to reason about it? Control basics: the time domain

ByChapter 2. Transmission Line Theory. Sept. 29 th , 2008. 2.1 Transmission Lines. A transmission line is a distributed-parameter network, where voltages and currents can vary in magnitude and phase over the length of the line. Lumped Element Model for a Transmission Line

ByChapter 6: Frequency Domain Anaysis. Instructor: Dr. Cailian Chen. Outline. Concept. Graphical method. Analysis. Introduction of Frequency Response Frequency Response of the Typical Elements Bode Diagram of Open-loop System Nyquist-criterion Frequency Response Based System Analysis

ByMaintenance philosophy and procedures. MAINTENANCE PRACTICES. Types of Maintenance: PREVENTIVE MAINTENANCE CORRECTIVE / Breakdown MAINTENANCE MAINTENANCE CO-ORDINATION Condition based maintenance OVER HAULING FAILURE ANALYSIS . CONDITION MONITORING / CONDITION BASED MAINTENANCE .

ByImage Enhancement in Frequency Domain. Image and Its Fourier Spectrum. Basic Steps Multiply pixel f(x,y) of the input image by (-1) x+y . Compute F(u,v), the DFT G(u,v)=F(u,v)H(u,v) g1(x,y)=F -1 {G(u,v)} g(x,y) = g1(x,y)*(-1) x+y. Filtering in Frequency Domain: Basic Steps. Notch Filter.

ByWestern Wind and Solar Integration Study - Phase 3. Kara Clark, NREL Nick Miller, Miaolei Shao, Slobodan Pajic, Rob D’Aquila, GE July 15, 2014. Western Wind and Solar Integration Study.

ByLinear Constant-coefficient Difference Equations. for all n. An important subclass of linear time-invariant systems consist of those system for which the input x [ n ] and output y [ n ] satisfy an N th-order linear constant-coefficient difference equation. A general form is shown above.

ByIntroduction to Beamforming for Noise Source Localization. Bálint Kocsis PhD student kocsis@ara.bme.hu Csaba Horváth assistant professor horvath@ara.bme.hu Budapest University of Technology and Economics Faculty of Mechanical Engineering Department of Fluid Mechanics. Outline.

ByChapter 8. FIR Filter Design. Gao Xinbo School of E.E., Xidian Univ. xbgao@ieee.org http://see.xidian.edu.cn/teach/matlabdsp/. Introduction. In digital signal processing, there are two important types of systems: Digital filters : perform signal filtering in the time domain

ByFingerprints in the Ether: Using the Physical Layer for Wireless Authentication. L. Xiao, L. Greenstein, N. Mandayam, W. Trappe ICC 2007 Glasgow, Scotland This work is supported in part by NSF grant CNS-0626439. Outline. Motivation & Main Idea System Model & Hypothesis Test

BySIGNAL PROCESSING WITH MATLAB. Presented by: Farah Hani Nordin Dr. Farrukh Hafiz Nagi. What is signal Processing?. The scope of signal processing has grown so broad as to obviate a perfect and precise definition of what is entailed in it[1].

ByEECE 311: Electronic Circuits. Introduction and SPICE Review. Course Information. Class Section 1: MWF at 8:00 am in 541 Section 2: TR at 9:30 am in 545 Section 3: MWF at 10:00 am in 539 Instructors: Rouwaida Kanj (Sections 1 and 3) Office: Room 406C ( Bechtel)

ByResponse of First Order Systems to Sinusoidal Input. First Order System - Sinusoidal Input. Consider the following first order system:. Determine the response of the system if input is a sinusoidal:. Which may be transformed to:. the system response, O (s), is then:.

ByPiezoelectric Displacement Results of Measuring Pt/PNZT/Pt Capacitor on Seiko Instruments SPA400 AFM. . Radiant Technologies, Inc. August 7, 2001. Sample Description. Capacitor Area: 12µ x 12µ Construction: Pt/PNZT/Pt Composition: 4/20/80 PNbZT PNZT Thickness: 1 µm. Displacement at 40V.

ByA “Twin Tee” Active Filter. Prototype and test the following design Be careful to match the capacitors and resistors Determine the frequency response at .01 to 100 times the center frequency What would this filter be good for?

ByA “Twin Tee” Active Filter. Prototype and test the following design Be careful to match the capacitors and resistors Determine the frequency response at .01 to 100 times the center frequency What would this filter be good for?

ByCHAPTER 7 filter design techniques. 7 .0 introduction 7.1design of discrete-time IIR filters from continuous-time filters 7.1.1 filter design by impulse invariance 7.1.2 filter design by bilinear transform 7.1.3 not low pass filter design and other method

ByImplementation of Basic Digital Filter Structures. R.C. Maher ECEN4002/5002 DSP Laboratory Spring 2003. Digital Filters. DSP ALUs designed to do fast MACs Use Harvard architecture: place filter state in X memory, filter coefficients in Y memory

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