ET 2200 Telecommunication Laboratory Works 2

Instructor’s information

Dr. Tutun Juhana, ST., MT.,

Telematics Laboratory,

Tel: +62222500962,



ET2006 Communication Electronics
ET2008 Embedded Systems

Instructor Assistance

Senior students

Class Hours

Arranged by assistances and students

Text books required

1. Embedded System Design, P. Marwedel,Springer Verlag,2007
2. Electronic Principles,7th Edition, Dr. Albert Paul Malvino, David J. Bates, McGraw-Hill, 2007

Specific course information

This course covers laboratory works on Communication Electronics and Embedded System

Specific goals for the course

  • Specific outcomes of instruction (Course learning objectives).

The course supports program outcomes 1,2, 4, 5, 7 and 11 as required by ABET Criterion 3 of EAC (Engineering Accreditation Commission)

  1. Outcome 1. Apply knowledge of mathematics, science, and engineering.
  2. Outcome 2. Design and conduct experiments, as well as to analyze and interpret data.
  3. Outcome 4. An ability to work in a team.
  4. Outcome 5. Identify, formulate, and solve engineering problems.
  5. Outcome 7. An ability to communicate effectively.
  6. Outcome 11. Use the techniques, skills, and modern engineering tools necessary for engineering practice.

Brief list of topics to be covered

  1. Introduction: rules, terms, and conditions
  2. Health, Safety, and Environment related issues
  3. Embedded system: Digital output and input, External devices, Seven segmen scanning, Ethernet shield
  4. Communication Electronics: Zener diode, Common emitter amplifier, Wien bridge oscillator
  5. Case study

Tentative Class Schedule and Topics

1 Introduction
2 Safety, Health, and Environment related issues
3 Tools and hardware introduction for upcoming modules
4 Digital output and input
5 External devices
6 Seven segmen scanning
7 Ethernet shield
8 Midterm Exam
9 Tools and hardware introduction for upcoming modules
10 Zener Diode
11 Tools and hardware introduction for upcoming modules
12 Common emitter amplifier
13 Tools and hardware introduction for upcoming modules
14 Wien bridge Oscillator
15 Case study

Grading Policy:

The grading policy is the average of all modules. However, the number of absent in class result in results decreasing in grading with condition as folows :

  • Absent 1 times, index decrease 1 step
  • Absent 2 times, index decrease 2 step
  • Absent 3 times, index decrease 3 step
  • Absent > 4 times, index decrease 4 step

Letter Grades Marks Points

A A > (m + 1½s) 4.0

AB (m + 1s) < AB = (m + 1½s) 3.5

B (m + ½s) < B = (m + 1s) 3.0

BC m < BC = (m + ½s) 2.5

C (m – ½s) < C = m 2.0

D (m – 1½s)  < D = (m – ½s) 1.0

E D = (m – 1½s) 0.0

Course Policies

Each student is expected to attend all of the scheduled classes and labs. If a student has more than 6 unexcused absences, then he/she will get grade E automatically.
Punctuality is a must.
Student ethics is important (see point no.12). During evaluation (e.g quizzes, exams, individual projects, and individual assignments) you are expected to comply with professional honesty. Any breach of integrity will be taken seriously and reported to the appropriate higher authority

Ethics of a Students as Community Member

According to the Student Ethics at the Institut Teknologi Bandung chapter II first part article 3 that students of ITB must be able to manifest the spirit of upholding academic and professional honesty and integrity by restraining from dishonest and unfair acts in any form, both inside and outside of the campuses.

ET 2200 Practical Exercises

ET2200 Modules (please click to download the modules)

Last ET2200 informations

Embedded System


Introductory Exercise for Module 1

Introductory Exercise for Module 2

Communication Electronics


Introductory Exercise for Module 1

Introductory Exercise for Module 2

Section 1
Final Quiz