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Decks in this class (21)
Complex Numbers (When and Why)
Appendix B Review for Signals and Systems
32
cards
Quizzes
Media 1,
What is a system 2,
Media 3
35
cards
Exam 1 Practice
What is the unit step function 1,
What does waveform synthesis invo...,
What is the purpose of signal tra...
14
cards
Basic Continuous Time Signals - Waveform Properties
▪ Differentiate between periodic and nonperiodic waveforms
▪ Determine the frequency and period of a periodic waveform (e.g. a complex exponential)
▪ Sketch: unit step, unit ramp, rectangle, impulse
▪ Sketch waveforms with these transformations: time-shifted, time-scaled, time-reversed
▪ Use the sampling property of an impulse to compute an integral with the delta function
24
cards
Basic Continuous Time Signals - Waveform Properties 2
▪ Sketch: unit step, unit ramp, rectangle, impulse, and exponential
▪ Sketch waveforms with these transformations: time-shifted, time-scaled, time-reversed
▪ Synthesize a (more complicated) waveform in terms of unit steps and ramps
▪ Use the sampling property of an impulse to compute an integral with the delta function
▪ Determine if a waveform is a power signal, an energy signal, or neither
20
cards
Basic Continuous Time Signals Concepts - Waveform Properties: Power and Energy Signals
▪ Determine if a waveform is a power signal, an energy signal, or neither
24
cards
Linear Time Invariant Systems
▪ Apply superposition to determine if a system is an LTI system
▪ Apply superposition to analyze a system
▪ Determine the step response of a system given the impulse response, and vice versa
▪ Determine the output from a system, given its impulse/step response and its input
▪ Apply the convolution integral to find the output of a system to an arbitrary input
20
cards
Linear Time Invariant Systems II
▪ Determine the output from a system, given its impulse/step response and its input
▪ Apply the convolution integral to find the output of a system to an arbitrary input
▪Perform convolution using the graphical approach
15
cards
Linear Time Invariant Systems - Graphical Convolution and Convolution to Solve the Zero-State Response of Linear Constant Coefficient Differential Equations (LCCDEs)
▪ Sketch the convolution of two functions, graphically (i.e. by flip-shift-integrate)
▪ Determine the output from a system, given input-vs-time and its frequency response
▪ Translate an LCCDE into a (steady-state) frequency response
▪ Determine the output from a system, given input-vs-time and its LCC differential equation
17
cards
Linear Time Invariant Systems - Convolution to Solve the Zero-State Response of Linear Constant Coefficient Differential Equations (LCCDEs)
▪ Identify causal, static vs. dynamic, and stable systems
▪ Determine the output from a system, given input-vs-time and its frequency response
▪ Translate an LCCDE into a (steady-state) frequency response
▪ Determine the output from a system, given input-vs-time and its LCC differential equation
21
cards
Frequency Domain Analysis - Phasor Analysis and Laplace Transform to Fourier Analysis
▪Describe the use of Phasor Analysis and Laplace transform compared to Fourier Analysis
19
cards
Fourier Series for Representing Periodic Signals
▪ Write the full Fourier series coefficients for a given periodic time-domain function
▪ Write the compact Fourier series coefficients for a given periodic time-domain function
▪ Determine the LTI system response at multiple frequencies (by replacing periodic sources by a Fourier series and generalizing a transfer function with a variable frequency)
27
cards
Fourier Series for Representing Periodic Signals II
▪Write the full Fourier series coefficients for a given periodic time-domain function
▪Write the compact Fourier series coefficients for a given periodic time-domain function
▪Determine the LTI system response at multiple frequencies (by replacing periodic sources by a Fourier series and generalizing a transfer function with a variable frequency)
12
cards
Fourier Transform
What is the main purpose of the e...,
What are fourier series coefficie...,
What does lti stand for 3
32
cards
Fourier Transform II
What does the fourier transform f...,
What are the conditions for conve...,
What type of signals are fourier ...
13
cards
FT of Power Signals
What does the fourier transform f...,
The spectra of f is defined in te...,
What is the inverse fourier trans...
10
cards
Application to AM Radio
What does am stand for in the con...,
The fourier transform ft permits ...,
What are the two types of spectra...
16
cards
Filters
What is frequency division multip...,
Name the two modulation and demod...,
What is the transfer function of ...
9
cards
Exam 2 Practice
What is a linear constant coeffic...,
What is the frequency response h ...,
How to find the steady state outp...
18
cards
Discrete Time
List the signal types covered in ...,
List the signal properties covere...,
What signal transformations and p...
23
cards
Final Exam Review Problems
How do you rewrite the transforma...,
Describe the effect of x 2 t 3 on...,
What is the plot of x t 10u t 4 o...
38
cards
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ELEC 309
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ELEC 306
- 29 decks
- 1111 flashcards
- 2 learners
Decks:
Amplifiers 10 27, Parameters Of Amplifiers 9 1, Amplifiers Ii 9 3, And more!
