True point-and-click technology: start patching telecommunications models in minutes. Emona TutorTIMS-R2 Software Telecommunications and Signals & Systems Simulation Software for Technical College and University Students EMONA INSTRUMENTS www.emona-tims.com EXPERIMENTS IN MODERN COMMUNICATIONS TutorTIMS - Release 2
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Emona TutorTIMS-R2 Software€¦ · Emona TutorTIMS-R2 Software Telecommunications and Signals & Systems Simulation Software ... Theory is always expressed in the universal language
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True point-and-clicktechnology: start patching
telecommunications models in minutes.
Emona TutorTIMS-R2SoftwareTelecommunications and
Signals & Systems Simulation Software
for Technical College andUniversity Students
EMONA INSTRUMENTSwww.emona-tims.com
EXPERIMENTS IN MODERN COMMUNICATIONS
TutorTIMS - Release 2
BUILD IT USING TIMS & TutorTIMS MODULES
REPRESENT IT AS A BLOCK DIAGRAM
QPSK
xp (t).cos ωc t + xq (t).sin ωc t = QPSK
where xp (t) and xq (t) are alternate elements of a digital sequence.
In telecommunications, Math andTheory is always expressed in theuniversal language of BLOCK DIAGRAMS.
Telecommunications engineers makesense of math and theory throughBLOCK DIAGRAMS.
TIMS & TutorTIMS both realisetelecommunications BLOCK DIAGRAMS. TIMS realises block diagrams with real circuits.TutorTIMS realises block diagrams with on-screen graphical blocks, which run simulationcode in the background.
Telecommunications text books are a sourceof equations and theories. This is the startingpoint for a TIMS & TutorTIMS experiment.
Each block is aTIMS module
Patching of modulesis exactly as per the
BLOCK diagram
START WITH MATH OR THEORY
HOW TO BUILD TIMS & TutorTIMSTELECOMMUNICATIONS EXPERIMENTS
Students use exactly the same approach to building telecommunications experiments in both EmonaTIMS hardware and Emona TutorTIMS software.
HOW TO BUILD TIMS & TutorTIMSTELECOMMUNICATIONS EXPERIMENTS
PWM & PPMPRBS messagesThe noisy channelRecovery of a noisy dataBit Error Rate measurementSNR measurementLine coding and decodingCarrier acquisition
and much more . . . . PLUSSIGNALS & SYSTEMS EXPERIMENTS Lab 1: Special signals - characteristics andapplications
Lab 2: Modeling linear and nonlinearsystems with TIMS
Lab 3: Unraveling convolution
Lab 4: Comparing responses in the time &frequency domains
Lab 5: A Fourier series analyzerLab 6: Spectrum analysis of various signaltypes
Lab 7: Using Laplace domain poles andzeros as a system design tool
Lab 8: Sampling and aliasingLab 9: Getting started with analog-digitalconversion
Lab 10: Discrete-time FIR filtersLab 11: Using poles and zeros in thecomplex z plane: Discrete-time filters
Lab 12: Discrete-time filters - applications
EASY ACCESS TO ALL TutorTIMS FUNCTIONS
Scope and FFTwith Rectangular,Gaussian andBlackman-HarrisWindow functions
TutorTIMS is particularly easy for students to use quickly. All TutorTIMS functions are directly accessible at the frontpanel screen. There are no menu structures and there is no syntax to learn. All HELP and manuals are available viathe front panel toggle switch. No programming is required to build TutorTIMS telecommunications experiments.