Pages without language links
Jump to navigation
Jump to search
The following pages do not link to other language versions.
Showing below up to 500 results in range #1 to #500.
- 'Exact' Transformer Model
- 09/29 - Analogy to Vector Spaces
- 10/01 - Vectors & Functions
- 10/02 - Fourier Series
- 10/08 - Mechanics of Convolution & Fourier Transform
- 10/09 - Fourier Transform
- 10/10,13,16,17 - Fourier Transform Properties
- 10/3,6 - The Game
- 10 - Quadrature sampling
- 11 - DFT example
- 2005-2006 Assignments
- 2006-2007 Assignments
- 2008-2009 Assignments
- 2009-2010 Assignments
- 2017 VNA Design Notes
- 2017 VNA Testing Software Setup
- 24/09/07 Notes
- 2 - What I've learned so far
- 3 - Non-periodic Functions
- 3 - The Game Simplified
- 4 - Fourier Transform
- 5 - Review Fourier Transform
- 6 - Fourier Transform 2
- 7 - Sampling a Signal
- 8 - 1x oversampling
- 9 - Third harmonic sampling
- AC Motors
- AC vs. DC
- AM vs FM Modulation
- ASN1
- ASN1- Create Wiki and evaluate integral
- ASN10
- ASN10 - Frequency response of low pass filters
- ASN10 - Quadrature sampling demonstration
- ASN10 - Use Octave (or Mathlab or Silab) to plot the frequency response of low pass filters with cut off frequencies of 1/32T, 1/8T, and 1/4T and compare how many coeffficients are needed with an eye to answer the question
- ASN11 - Is our method the same as Mark Flower's? See Wiki. Same
- ASN11 - Leakage demonstration in Octave
- ASN11 - Our method versus Mark Flower's
- ASN12 - Determine resolution using cross correlation
- ASN13 - Derive DFT relations
- ASN14 - Idea for an adaptive FIR filter
- ASN1 - Create Wiki Home Page
- ASN1 - Create Wiki and evaluate integral
- ASN2 - Download Octave & Brief on Download/Use
- ASN2 - Octave Tutorial
- ASN2 - Something Interesting: Exponential
- ASN3 - Class Notes October 5
- ASN3 - Class Notes October 5: The Game
- ASN3 - Show graphically that the exponential funtion shifted equals to the delta function shifted
- ASN4 -Fourier Transform property
- ASN4 - Fourier Transform property: Parseval's Theorem
- ASN4 - Parseval's Theorem
- ASN4 fixing
- ASN5 - Review a classmate's Asng4
- ASN5 - Value at origin
- ASN6 a,b- Prove given Fourier Transform property
- ASN6 a,b- fixing
- ASN6a,b
- ASN6c - Fourier Transform property: Value at origin
- ASN6c fixing
- ASN7
- ASN7- Suppose sampled only half
- ASN7 - Sampled half of signal
- ASN8 - FIR filters
- ASN8 - How does a CD player work
- ASN8 - Make a page about interpolating FIR filters. Note how many multiply/add operations
- ASN9 - 3rd Harmonic & QSD
- ASN9 - Add to
- ASN9 - Decimating filter
- A little about Sampling
- A octave/MATLAB script to show how Nyquist's formula
- A skeleton program to get data from Jack Audio Connection Kit
- Aaron's Octave Assignment
- Aaron Boyd's Assignment 8
- AdaptiveFIRJEW
- Adaptive Filter Application by harrde
- Adaptive Filters In the Frequency Domain
- Airplane Noise Removal Demonstration
- Alex's Assignment
- Alex's Octave Assignment
- Alex Haesche
- Alex Roddy
- Alexander.Beckner
- Alias
- Aliasing
- Ampere's Law
- Amy Crosby
- An Application of Electromechanical Energy Conversion: Hybrid Electric Vehicles
- An Ideal Transformer Example
- An Interesting Application for Magnets
- An example showing how convolution is just a dot product
- An octave/MATLAB RC circuit example with Fourier series
- An octave/MATLAB script to show the Fourier series of a string of impulse functions
- An octave/MATLAB script to show the relation
- An octave/MATLAB u(t) function example
- Andrew's Octave Assignment
- Andrew Bylard
- Andrew Roth's Fourier Series/Laplace Transform Project
- Andrew Sell
- Android Programming
- Andy's Fourier Series Project
- Andy's Octave Assignment
- Aric Vyhmeister
- Assembly Language Programming
- Assignment
- Automatic Antenna Phasing Project
- Banton, Alex
- Basic Laplace Transforms
- Basic Op Amp circuits
- Ben Henry
- Benjamin Maloon
- Bidwell, Kelvin
- Blaire, Matthew
- Bootloader Programming
- Brian's Octave Assignment
- Brian.Clark
- Brian.Lenz
- Brian Clark
- Brian Haddad
- Brian Lenz
- Bryson, David
- Building Tips
- CDPlayerJEW
- CD Player
- CD Player Exlanation
- CW-Robot Octave Simulation
- C example of using the USCI as a 9600 baud UART to communicate with the HC-06 bluetooth module for the MSP430F5529
- Cascading Scattering Parameters and Calibration of a VNA Using the Short, Open, Load, Through (SLOT) Method
- Chapter 1
- Chapter 2
- Chapter 22--Fourier Series: Fundamental Period, Frequency, and Angular Frequency
- Chapter 2 problems
- Chapter 3
- Chapter 3 Problems
- Chapter 3 problems
- Chapter 4
- Chapter 4 problems
- Chapter 5
- Chapter 6
- Chris' Page for HW
- Chris' Page for HW 13 (Sampling at 3Hz)
- Chris' Page for HW 14 (Fixing Errors)
- Chris' Page for HW 4 (Fourier Transforms)
- Chris' Page for HW 8 (sampling)
- Chris' Page on Aliasing using MatLab
- Christman GeneralizedReceiver
- Christopher Garrison Lau I
- Circuit Analysis
- Circuit Board Layout Wisdom
- Class Notes
- Class Notes 1-5-2010
- Class Roster
- Class lecture notes October 5 - HW3
- Code Examples from Class
- Cody Lorenz
- Colby's Asgn
- Colby's Octave Assignment
- Colls, David
- Colls Octave Assignment
- Communications Systems
- Complex conjugate
- Complex vector inner products
- Conference Deadlines
- Conference attendance
- Convolution Theorem
- Corneliu Turturica
- Coupled Double Pendulum Oscillator
- Coupled Horizontal Spring Mass Oscillator
- Coupled Oscillator: Coupled Mass-Spring System with Damping
- Coupled Oscillator: Coupled Mass-Spring System with Input
- Coupled Oscillator: Double Pendulum
- Coupled Oscillator: Hellie
- Coupled Oscillator: Jonathan Schreven
- Coupled Oscillator: Pulley
- Coupled Oscillator: Spring Pendulums
- Coupled Oscillator: horizontal Mass-Spring
- Cruz, Jorge
- Current events
- DC Motor
- DFTJEW
- DFT Developement (Brandon.Price)
- DFT Exploration by harrde
- DFT by harrde
- DFT example using MATLAB - HW11
- Daniel Liwag
- David's Octave Assignment
- David Morgan's Fourier Series assignment
- David Morgan's Octave Assignment
- DavidsCD
- Decimating FIR filters
- Dell mini 9 Hackintosh Upgrade & Expansion
- Delta function
- Demonstration of an Oversampling FIR Filter
- Denver Lodge
- Derivative Matrix for a Function Vector
- Derivative Operator Picture Code
- Digital Control Octave Scripts
- Digital Control Systems
- Digital Logic
- Dirichlet Conditions
- Discrete Fourier Transforms
- Discrete Fourier transform
- EMEC
- EMEC - Greg
- Eddy Current
- Electromagnetic Fields/Electricity and Magnetism
- Electromechanical Energy Conversion
- Electromechanical Energy Conversion Applications
- Electronics
- Electronics - Greg
- Electronics 1
- Electronics Questions
- Electronics Receiver
- Electronics Score Pages
- Electrostatics
- Embedded Systems
- Enegy in a signal
- Energy in a signal
- Engineering Electronics
- Eric's Generalized Receiver Explanation
- Eric.Wilson
- Eric Clay
- Erik Biesenthal
- Evaluate this integral - HW1
- Example: Ampere's Law
- Example: Ideal Transformer Exercise
- Example: LaTex format
- Example: Magnetic Field
- Example: Metal Cart
- Example: Step Down Transformer
- Example Problem - Toroid
- Example Problems of Magnetic Circuits
- Example Problems with Transformers
- Example problems of magnetic circuits
- Exercise: Sawtooth Redone With Exponential Basis Functions
- Exercise: Sawtooth Wave Fourier Transform
- Exercise: Solving an IVP Problem with Laplace Transforms
- FFT Example
- FIRJEW
- FIR Filter
- FIR Filter Design and Testing Using the DFT
- FIR Filter Example
- FIR Filter Example Code for Octave
- FIR Filters
- FT
- Fall 2009
- Fall 2009/JonathanS
- Fall 2009/ben henry
- Fall 2010
- Feedback and Control Systems
- Feedback in Amplifiers
- Ferromagnetism
- FourierTransformsJW
- Fourier Example
- Fourier Series
- Fourier Series: Basic Results
- Fourier Series: Explained!
- Fourier Series Assignment
- Fourier Series Example Script
- Fourier Transform
- Fourier Transform Properties
- Fourier Transform Property review
- Fourier Transforms
- Fourier series
- Fourier series - by Ray Betz
- Fourier transform
- FrTm
- Fringing
- Fullerton, Colby
- Gauss Meters
- Generalized Receiver
- Generalized Receiver Explanation
- Generalized Transmitter
- Gibbs Phenomenon
- Golden Rules
- Grant, Joshua
- Gratias, Ryan
- Greg Fong
- HW
- HW10
- HW11 Aliasing Example
- HW12 DFT/Continuous Fourier Transform Relationship
- HW13 DFT/Sampling Assignment
- HW14 What I Fixed
- HW15 D/A Converter Compensation
- HW16 Application
- HW2
- HW5
- HW6
- HW7
- HW8
- HW9
- HW 03
- HW 04
- HW 05
- HW 06
- HW 07
- HW 08
- HW 1
- HW 13b
- HW 3
- HW 4
- HW 5
- HW 6
- HW 9
- Hawkins, John
- Here is further clarification on this property
- Hildebrand, Kurt
- Homework
- Homework: Sampling: A class review
- Homework Eight
- Homework Eleven
- Homework Five
- Homework Four
- Homework Nine
- Homework One
- Homework Seven
- Homework Six
- Homework Ten
- Homework Three
- Homework Two
- Homeworkk
- Homeworkkk
- How a CD player works
- How a CD player works - HW8
- How an oversampling CD player works?
- How to use Octave to Fit an Arbitrary Function with fmins
- Hw10
- Hw11
- Hw12
- Hw13
- Hw14
- Hw15
- Hw3
- Hw6
- Hw8
- Hw9
- Ideal Transformer Example
- Ideal vs. Nonideal Op Amps
- Induction Motors
- Inner product
- Installing Octave (with the GUI) from source on Ubuntu
- Installing Octave on Mac
- Installing Octave on a Mac
- Integrator Amplifier
- Interpolating FIR filters
- Interpolation using the DFT Example Script
- Intro to CAD
- Jason Osborne
- Jaymin, Joseph
- Jed's Octave Assignment
- Jimmy Apablaza
- Jodi Hodge
- Jodi S. Hodge
- John Hawkins
- Josh DSB
- Joshua Sarris
- Kara Moon
- Kelvin's Octave Assignment
- Kevin Starkey
- Kevin Starkey EMEC
- Key Facts from Book
- Key Facts from Reading
- Key Facts from Reading Chapter 1
- Kicad Specific PCB Hints
- Kirk Betz
- Kurt's Assignment
- Kurt's Octave Assignment
- Kyle Lafferty
- LNA
- LTspice Simulation
- Lab7
- Laplace Transform
- Laplace Transform of a Triangle Wave
- Laplace Transforms: Coupled Springs
- Laplace Transforms: Vertical Motion of a Coupled Spring System
- Laplace transforms:DC Motor circuit
- Laplace transforms:Mass-Spring Oscillator
- Laplace transforms:Parallel RLC Circuit
- Laplace transforms:Series RLC circuit
- Laplace transforms: Circuit
- Laplace transforms: Critically Damped Motion
- Laplace transforms: Critically Damped Spring Mass system
- Laplace transforms: Double pendulum
- Laplace transforms: R series with RC parallel circuit
- Laplace transforms: Simple Electrical Network
- Laplace transforms: Under-damped Mass-Spring System on an Incline
- Lau, Chris
- Leakage Example Octave Script
- Linear Network Analysis
- Linear Time Invariant Overview
- Linear Time Invariant System
- Linear Time Invarient System
- Link title
- Link to notes
- Luke Chilson
- MSP430F5529 Memory Map
- MSP430 Assembly Code Examples from Class
- MSP430 C Code Examples from Class
- Magnetic Circuit
- Magnetic Circuit Matlab Script
- Magnetic Circuits
- Magnetic Flux
- Main Page
- Mark's Article on Aliasing
- Mark's Article on Sampling
- Mark's Article on the DFT
- Mark's Homework
- Mark's Homework 13
- Mark's Homework 15
- Martinez's Fourier Assignment
- Martinez's Octave Assignment
- Martinez, Jonathan
- Matlab/Octave deMorse.m
- Matlab or Octave Script for this problem.
- Matthew's Asgn
- Matthew's Octave Assignment
- Matthew Blaire
- Max Woesner
- Mediawiki/index.php
- Mediawiki/mediawiki/index.php
- Michael.Swan
- Michael Noel HW
- More about Sampling
- More pictures
- Morgan, David
- Morse.m This is the one from mathworks
- Multi-Stage Filter Design
- Multiple dimensional vectors
- Multirate Filtering
- My FIR Filter page
- Nick Christman
- Nick ENGR431
- Nick ENGR431 P1
- Nick ENGR455
- Nick SSB
- Noel, Michael
- Not for Class
- Octave
- Octave Simulation of a Tayloe Sampling Mixer
- Octave and Scilab on a Mac
- Ohm's Law and Reluctance
- Orthogonal functions
- Orthonormal set
- Oversample and Predistort by harrde
- PSK31 Demodulation
- PSK31 Demodulation (Kurt & Michael)
- Parallel RLC circuits: Laplace Transform Method
- Parameters
- Patrick Carmen Tech Thriller
- Points
- Points for reviews
- Power Electronics
- Power Electronics:HW
- Power Electronics HW5
- Pridma's Article on Fourier Transforms
- Printing and Etching Circuit Boards
- Private Pages
- ProblemCh14-22
- Problem 5 Exam 1
- Problem Set 1
- Quadrature sampling waveform plot - HW10
- Qucs Simulations
- Quiz 6.1
- Quiz 6.2
- Quiz 6.3
- READ THIS FIRST
- RLC Circuit of February 10, 2011
- Radio
- Rayleigh's Theorem
- Rayliegh's Theorem
- Reading from Chapter 4
- Reading from Chapter 7
- Reference Terms and Units
- Reference terms and Units
- Relationship between e, sin and cos
- Robert's HW
- Robert's Octave Assignment
- Roth, Andrew
- Rules
- Ryan's Resume
- Samping by harrde
- Sampling
- Sampling - HW7
- SandBox
- Sarris
- SawToothFourier
- Sawtooth2 Matlab Code
- Score Pages
- Shepherd,Victor
- Sigma Delta A/D Converter by harrde
- Signals and Systems
- Signals and systems/GF Fourier
- Solving Series RLC Circuit Using Laplace Transforms
- Something interesting from class - HW
- Something interesting from class - HW2
- Starr, Tyler
- State Space Form
- Stirn, Jed
- Stringer, Robert