Emona Trainer Lab Manual

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by Emona Tims

The ETT-202 Lab Manual Volume One covers a broad range of introductory digital and analog. Experiments make use of the Emona DATEx telecommunications trainer kit.
Emona Datex Lab Manual Volume LABORATORY MANUAL. The ETT-202 Laboratory Manual set (Vol.1, 2 & 3) provides a turn-key solution for the teacher and student alike. ETT-202 Laboratory Manual. It is specially written to guide students through hands-on experiments and help them grasp the fundamental concepts of telecommunications.
About Emona Instruments. A leading high-tech engineering company specialising in electronics, electrical, education and additive manufacturing equipment. Also, proudly design and manufacture in Australia, and export world-wide our Emona TIMS telecommunications training systems.

Emona Volume 1 Experiments in Modern Analog & Digital Telecommunications. EMONA plug-in accessory boards (such as EMONA DATEx Telecoms-Trainer and the EMONA FOTEx Fiber optics trainer), these instruments are all merged into one full-screen virtual instrument for the HELEx board known as the HELEx Main soft front panel (SFP).

In this lab students will become familiar with the block diagrams and the modules on the EMONA Communication Board that are used for building communication systems. They will also learn how to use the various NI ELVIS III instruments to generate signals and take measurements. Students will connect various communication blocks and then investigate the signal characteristics.

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LEARNING OBJECTIVES

After completing this lab, students will be able to:

Physics Lab Manual

Use the NI ELVIS III Oscilloscope and Function Generator.
Describe the basic functionality of individual circuit modules on the board.
Patch together these modules to model block diagrams and build systems.

REQUIRED SKILLS

Basic proficiency using ELVIS III Instruments
Basic knowledge of AC signals.

Emona Communications Board for NI ELVIS III

Application board for the NI ELVIS III developed to teach introductory digital and analog communications topics using a completely hands-on approach. Learn more

NI ELVIS III

Engineering laboratory solution for project-based learning that combines instrumentation and embedded design with a web-driven experience, delivering a greater understanding of engineering fundamentals and system design. Learn more

Required Software

Download Academic Software, Learn About Software Licensing

NI ELVIS III Soft Front Panel Support - Install Instructions
Measurements Live - Access

Required Hardware

Emona Trainer Lab Manual Pdf

Purchase Engineering Education Products

NI ELVIS III - View User Manual & Specifications
Emona Communications Board- View User Manual & Specifications

Instructor resources are available. Get access

Emona Signal Processing Trainer ETT-311

SIGEx: Multi-experiment Single Board

“Signals and Systems” Trainer for the popular NI ELVIS™ platform
Designed specifically for 1st & 2nd Year University and Community College courses

A unique hands-on approach to help students understand this abstract topic, bringing theory and application together in the lab

How does SIGEx help students understand “Signals & Systems” & signal processing theory better?

The EMONA SIGEx board and comprehensive Lab Manual and closely follows the typical curriculum encountered by engineering students and is based on leading textbooks on this topic. By having hands-on modules which students patch together according to the block diagram in the lab, students can build actual working implementations of the theoretical structures they are studying. This enhances their understanding and reduces the number of students who “just don’t get it”. Every theoretical topic has an equivalent lab implementation so students can see the “maths come alive” in the lab.

View a brief

3 minutes video presentation

ABOUT SIGEX

SIGEx SFP contains access to tabbed instrumentation for each experiment, and clear,intuitive controls for the hardware elements.Students are constantly viewing and working with real electrical signals and systems built on the SIGEx hardware. Students build and measure signals from “models” of theoretical structures using blocks from the SIGEx board and NI ELVIS unit.

SIGEx Lab Manual Volume 1 Contents

Introduction (i)

An introduction to the NI ELVIS II/+ test equipment S1-01

An introduction to the SIGEx experimental add-in board S1-02

SIGEx board circuit modules
NI ELVIS functions
SIGEx Soft Front Panel descriptions

An introduction to the SIGEx experimental add-in board S1-02

Pulse sequence speed throttled by inertia
Isolated step response of a system
Isolated pulse response of a system
Sinewave input
Clipping

Systems: Linear and non-linear S1-04

Conditions for linearity
The VCO as a system
A feedback system
Testing for additivity
Frequency response

Unraveling convolution S1-05

Introducing superposition
The superposition sum
A sinewave input
Mystery applications

Integration, convolution, correlation & matched filters S1-06

Integration over a fixed period
Correlation over a fixed period
Convolution vs. Correlation
Exploring the idea of matched filters

Exploring complex numbers and exponentials S1-07

Complex numbers and complex signals
Vector arithmetic
Signals as phasors
Origin of exponential functions and ‘e’

Build a Fourier series analyser S1-08

Constructing waveforms from sine & cosine
Computing Fourier coefficient
Build a manually swept spectrum analyzer
Analyzing a square wave

Spectrum analysis of various signal types S1-09

Impulse trains
Square waves and duty cycle
Clipped sinusoids and harmonic multiplication
Sync pulses
PN sequences
Pseudo random noise generation (AWGN)
Exponential pulses
Arbitrary waveforms

Time domain analysis of an RC circuit S1-10

Circuit analysis of a storage element
Introducing the ‘s ’ operator and the Laplace domain
Step response of the RC
Comparison with the RC differentiator

Poles and zeros in the Laplace domain S1-11

System with feedback only – allpole
Feedback and feedforward – poles & zeros
Allpass circuit
Critical damping & maximal flatness

Sampling and Aliasing S1-12

Through the time domain – PAM, Sample & Hold
Through the frequency domain
Aliasing and the Nyquist rate
Uses of undersampling in Software Defined Radio

Getting started with analog-digital conversion S1-13

PCM encoding & quantization
PCM decoding & reconstruction
Frame synchronisation & quantization noise

Discrete-time filters with FIR systems S1-14

Graphical plotting of response from poles & zeros
Notch filter creation using two-delay FIR

Poles and zeros in the z plane with IIR systems S1-15

Relating roots to coefficients in the quadratic polynomial
IIR without feedforward – a second order resonator
IIR with feedforward – second order filters

Discrete-time filters – practical applications S1-16

Nursing Lab Manual

Dynamic range at internal nodes
Advantages of Transposed form vs. Direct form
Sampling rate issues

Poles and zeros in the z plane with IIR systems S1-15

Verification for harmonic power signals
Verification for non-harmonic power signals

Random signal analysis: measuring erfc & Q(x) for AWGN S1-18

Emona 101 Trainer Lab Manual Solutions

Measuring the main parameters of a noise signal
Constructing the Q(x) function

Appendix A: SIGEx Lab To Textbook Chapter Table S1-A

Emona Trainer Lab Manual Treadmill

Appendix B: Using LabVIEW with SIGEx S1-B

Creating custom output signals

Digital Filter Design toolkit usage

References

NI, NI ELVIS & LabVIEW are registered trademarks of the National Instruments Corporation. TIMS logo, SIGEx are trademarks of Emona TIMS Pty Ltd.