Signals & Systems experiments
A new volume of experiments that help students to relate the complex math of Signals & Systems to the real-world
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OVERVIEW | ||
| The TIMS Signals & Systems Experiments Manual makes it possible for students to experience at first hand the interaction between the theory and mathematics of the signals and systems textbook with the real world of hardware and of signals in wires and waves. In this first volume, catering for the introductory level, experiments have been designed to provide hands on exercises covering most of the key concepts and challenges, including: | |||
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VOLUME 1 TIMS Signals & Systems Experiments:
Lab 2: Modeling linear and nonlinear systems Lab 3: Unraveling convolution Lab 4: Comparing responses in the time and Lab 5: A Fourier series analyzer Lab 6: Spectrum analysis of various signal types Lab 7: Using Laplace domain poles and zeros Lab 8: Sampling and aliasing Lab 9: Getting started with analog-digital conversion Lab 10: Discrete-time FIR filters Lab 11: Using poles and zeros in the complex Lab 12: Discrete-time filters - applications |
TIMS Signals & Systems Module Set: (click to view pdf)
A selection of 13 TIMS-100 Series Fundamental and TIMS-400 Series Advanced modules are required to implement the majority of the above twelve experiments. Only Labs 5 & 9 require additional Advanced modules.
Of the 13 required modules, four are new modules. Two of the new z-TRANSFORM modules are required as well as two LAPLACE modules. These allow the student to implement a wide variety of first and second order, analog and discrete-time filters, as well as other fundamental signal processing structures.
A selection of 13 TIMS-100 Series Fundamental and TIMS-400 Series Advanced modules are required to implement the majority of the above twelve experiments. Only Labs 5 & 9 require additional Advanced modules.
Of the 13 required modules, four are new modules. Two of the new z-TRANSFORM modules are required as well as two LAPLACE modules. These allow the student to implement a wide variety of first and second order, analog and discrete-time filters, as well as other fundamental signal processing structures.
