Module/Course Title: Digital System

Module course code

KOMS120103

Student Workload
119 hours

Credits

3 / 4.5 ETCS

Semester

1

Frequency

Odd Semester

Duration

16

1

Type of course

Core Study Courses

Contact hours


40 hours of face-to-face (theoretical) class activity

Independent Study


48 hours of independent activity
48 hours of structured activities

Class Size

30

2

Prerequisites for participation (if applicable)

-

3

Learning Outcomes

  1. Students can use mathematical and logical concepts that support the scientific fields of computer science
  2. Students can explain Boolean algebra and logic gates
  3. Students can make decoder and encoder circuits
  4. Students can design sequential circuits
  5. Students can design combinational circuits

4

Subject aims/Content

Digital Systems is one of the compulsory courses in the Computer Science Study Programme. Digital systems consist of several digital/logic circuits, electrical components, and logic gate elements for the purpose of transferring power/energy. Digital System is a system that functions to measure a value that is fixed or irregular in discrete form. Digital Systems consist of several digital/logic circuits, electronic components, and logic gate elements. There are several materials like digital system basic concept, numbers system, code system, boolean algebra, simplification using Karnaugh Map, combinational circuit, sequential circuit (for example flip-flop, counter, register, decoder, and multiplexer).

Study Material

Logic gates

  • Basic logic gate symbol
  • Basic logic gate truth table

Basic Logic Gate Inverse

  • Basic logic gate circuit and its inverse
  • Basic logic gate application

Logical Circuit Equations

  • Equation with truth table

Number System:

  • Binary
  • Decimal
  • Octal
  • Hexadecimal

Boolean Algebra

  • Logic circuit equations simplification

Half Adders:

  • Half adder truth table
  • Half adder circuit

-

Full Adders:

  1. Full adder truth table
  2. Full adder series

Flip-Flop Circuit

  • RS-Flip Flop Rangkaian Circuit
  • The working principle of the RS-Flip Flop and its truth table

D Flip-Flop Circuit

  • D-Flip Flop Circuit
  • D-Flip Flop working principle and truth table

JK-Flip Flop:

  • JK-Flip Flop Circuit
  • JK-Flip Flop working principle and truth table

Counter

  1. Ring counter working principle
  2. Ring counter app

Encoder

  1. Encoder working principle
  2. Simple encoder app

Decoder

  1. Decoder working principle
  2. Simple decoder app

-

5

Teaching methods

Synchronous:

Face-to-face meetings/online meetings

6

Assesment Methods

Attendance and Participation

7

This module/course is used in the following study programme/s as well

Computer Science Study Programme

8

Responsibility for module/course

  • I Nyoman Saputra Wahyu Wijaya, S.Kom., M.Cs
  • NIDN : 0826108901

9

Other Information

Books:

  1. Mano, M. Morris and Ciletti, Michael D.2018. Digital Design, 6/e [Paperback]. Pearson. ISBN: 978-93-530-6201-9.
  2. Mano, M. Morris and Ciletti, Michael D. 2013. Digital Design, With an Introduction to the Verilog HDL FIFTH EDITION. Pearson. ISBN-13: 978-0-13-277420-8.
  3. Elahi, Ata. 2017. Computer Systems. Digital Design, Fundamentals of Computer Architecture and Assembly Language. Springer International Publishing. ISBN: 978-33-196-6775-1

Website:

  1. http://www.cburch.com/logisim/docs.html

Video Tutorial:

  1. https://www.youtube.com/playlist?list=PLyqSpQzTE6M_dZdF7Bd-UncI5_L_1VkXF
  2. https://www.youtube.com/playlist?list=PL7wffs-oJ6x3ey5kFlCe-qSaVsw4aHkYK