Courses:

Unified Engineering I, II, III, & IV >> Content Detail



Signals Systems



Signals/Systems

Amazon logo When you click the Amazon logo to the left of any citation and purchase the book (or other media) from Amazon.com, MIT OpenCourseWare will receive up to 10% of this purchase and any other purchases you make during that visit. This will not increase the cost of your purchase. Links provided are to the US Amazon site, but you can also support OCW through Amazon sites in other regions. Learn more.

This section contains documents created from scanned original files and other documents that could not be made accessible to screen reader software. A "#" symbol is used to denote such documents.



Instructor


Prof. Steven R. Hall



Learning Objectives


16.01-02 Signals and Systems (PDF)

16.03-04 Signals and Systems (PDF)



Textbooks




16.01-16.02


Amazon logo Edwards, C. H., and David E. Penney. Elementary Differential Equations with Boundary Value Problems. 4th ed. Englewood Cliffs, NJ: Prentice Hall, 1999. ISBN: 0130113018.



16.03-16.04


Amazon logo Oppenheim, Alan, Alan Willsky, and S. Hamid Nawab. Signals and Systems. 2nd ed. Englewood Cliffs, NJ: Prentice Hall, 1996. ISBN: 0138147574.

This book treats both continuous-time and discrete-time signals and systems, whereas this course deals almost exclusively with continuous-time signals. Students may generally ignore sections in the assigned reading on discrete-time systems. However, some of the explanations given in the continuous-time sections are given as analogies to or limits of the discrete-time cases, so students will have some familiarity with the discrete-time notation.

Table Organization



16.01-16.02



LEC #TOPICSCONCEPT QUESTIONSMUDDY POINTSREADINGSASSIGNMENTS / SOLUTIONS
S1Overview of Signals and Systems, Circuit Elements(PDF)(PDF)S1 Notes (PDF)#

Linear Algebra Supplement (PDF)
Problem S1 (PDF)

Solution S1 (PDF)#
S2Circuit Elements (cont.), Kirchhoff's Laws(PDF)(PDF)S2 Notes (PDF)#Problem S2 (PDF)

Solution S2 (PDF)#
S3Kirchhoff's Laws (cont.), Circuit Analysis(PDF)S3 Notes (PDF)#Problem S3 (PDF)

Solution S3 (PDF)#
S4The Node Method(PDF)(PDF)S4 Notes (PDF)#Problem S4 (PDF)

Solution S4 (PDF)#
S5The Loop Method(PDF)(PDF)S5 Notes (PDF)#Problem S5 (PDF)

Solution S5 (PDF)#
S6Thevenin and Norton Equivalent Networks(PDF)(PDF)S6 Notes (PDF)#

Node and Loop Method Supplement (PDF)
S7Energy Storage Elements, Networks with Capacitors(PDF)(PDF)S7 Notes (PDF)Problem S7 (PDF)

Solution S7 (PDF)#
S8Time Response of RC Networks(PDF)(PDF)S8 Notes (PDF)Problem S8 (PDF)

Solution S8 (PDF)#
S9Circuits with Inductors and Capacitors(PDF)(PDF)S9 Notes (PDF)#Problem S9 (PDF)

Solution S9 (PDF)#
S10Impedance Methods, The Concept of "State", State Equations(PDF)(PDF)S10 Notes (PDF)Problem S10 (PDF)

Solution S10 (PDF)#
S11Homogenoeus State Equations(PDF)(PDF)S11 Notes (PDF)#

Edwards, et al. Section 5.4.
Problem S11 (PDF)

Solution S11 (PDF)#
S12More on Finding State Equations, Eigenvalues and Eigenvectors(PDF)(PDF)S12 Notes (PDF)#Problem S12 (PDF)

Solution S12 (PDF)#
S13Solving State Equations Using Eigenvalues and Eigenvectors(PDF)(PDF)S13 Notes (PDF)#Problem S13 (PDF)

Solution S13 (PDF)#
S14State Equations for Circuits with Sources(PDF)(PDF)S14 Notes (PDF)#

Transfer Function Supplement (PDF)#
Problem S14 (PDF)

Solution S14 (PDF)#
S15Quiz Discussion



16.03-16.04



LEC #TOPICSCONCEPT QUESTIONSMUDDY POINTSREADINGSASSIGNMENTS / SOLUTIONS
S1Linear, Time-Invariant Systems, The Step Response(PDF)(PDF)S1 Notes (PDF)#

Oppenheim, et al. Chapter 1.
Problem S1 (PDF)

Solution S1 (PDF)#
S2Duhamel's Integral(PDF)(PDF)S2 Notes (PDF)#

Oppenheim, et al. Section 2.0-2.2.
Problem S2 (PDF)

Solution S2 (PDF)#
S3Duhamel's Integral (cont.)(PDF)(PDF)S3 Notes (PDF)#Problem S3 (PDF)

Solution S3 (PDF)#
S4Impulse Response, Superposition Integral(PDF)(PDF)S4 Notes (PDF)#Problem S4 (PDF)

Solution S4 (PDF)#
S5Convolution and LTI Systems(PDF)(PDF)S5 Notes (PDF)#Problem S5 (PDF)

Solution S5 (PDF)#
S6Properties of the Impulse, Properties of Convolution(PDF)(PDF)S6 Notes (PDF)#Problem S6 (PDF)

Solution S6 (PDF)#
S7Graphical Interpretation of Convolution(PDF)(PDF)S7 Notes (PDF)#Problem S7 (PDF)

Solution S7 (PDF)#
S8Response to Exponential Inputs, The Unilateral Laplace Transform(PDF)(PDF)S8 Notes (PDF)#Problem S8 (PDF)

Solution S8 (PDF)
S9Selected Laplace Transforms(PDF)(PDF)S9 Notes (PDF)#Problem S9 (PDF)

Solution S9 (PDF)
S10Properties of the LT, Analysis of Systems Using LTs(PDF)(PDF)S10 Notes (PDF)#Problem S10 (PDF)

Solution S10 (PDF)
S11Partial Fraction Expansions(PDF)S11 Notes (PDF)#

Phugoid Supplement (PDF)
Problem S11 (PDF)

Solution S11 (PDF)
S12BIBO Stability and the Region of Convergence(PDF)(PDF)S12 Notes (PDF)#Problem S12 (PDF)

Solution S12 (PDF)
S13The Bilateral Laplace Transform(PDF)(PDF)S13 Notes (PDF)#Problem S13 (PDF)

Solution S13 (PDF)#
S14Examples of the Bilateral LT, The Inverse Laplace Transform(PDF)(PDF)S14 Notes (PDF)#Problem S14 (PDF)

Solution S14 (PDF)#
S15BIBO Stability and the Bilateral LT, The Fourier Transform(PDF)(PDF)S15 Notes (PDF)#

Oppenheim, et al. Chapter 4.
Problem S15 (PDF)

Solution S15 (PDF)#
S16The Fourier Transform (cont.), Fourier Transform Properties(PDF)(PDF)S16 Notes (PDF)#

Oppenheim, et al. Chapter 4.
Problem S16 (PDF)

Solution S16 (PDF)
S17The Fourier Transform of Special Functions, Convolutions and the FT(PDF)(PDF)S17 Notes (PDF)#Problem S17 (PDF)

Solution S17 (PDF)
S18Modulation, AM-DSB/SC(PDF)(PDF)S18 Notes (PDF)#Problem S18 (PDF)

Solution S18 (PDF)#
S19AM-DSB/WC, Envelope Detection(PDF)(PDF)S19 Notes (PDF)#Problem S19 (PDF)
S20Sampling(PDF)(PDF)S20 Notes (PDF)#Problem S20 (PDF)
S21Measuring the Size of Signals, Parseval's Theorem(PDF)(PDF)S21 Notes (PDF)#Problem S21 (PDF)

Solution S21 (PDF)
S22The Duration-Bandwidth Relations(PDF)(PDF)S22 Notes (PDF)#Problem S22 (PDF)

Solution S22 (PDF)
S23The Duration-Bandwidth Relations (cont.), Loran-C Navigation(PDF)S23 Notes (PDF)#

 








© 2010-2017 OpenHigherEd.com, All Rights Reserved.
Open Higher Ed ® is a registered trademark of AmeriCareers LLC.