10-07-2025 12:31:23 PM
EMBEDDED SYSTEM Course Code : 315338
: Automation and Robotics/ Digital Electronics/ Electronics & Tele-communication
Engg./ Electrical and Electronics Engineering/
Programme Name/s
Electronics & Communication Engg./ Electronics Engineering/ Industrial Electronics/
Electronics & Computer Engg./
Programme Code : AO/ DE/ EJ/ EK/ ET/ EX/ IE/ TE
Semester : Fifth
Course Title : EMBEDDED SYSTEM
Course Code : 315338
I. RATIONALE
Embedded systems are designed for specific tasks to excel in real-time performance, resource utilization and
reliability. These systems are playing vital role in modern technology, enabling sophisticated functionalities in a
wide array of devices and applications. Embedded systems are integral to the advancement of technology across
multiple sectors. By learning this course, students will develop skills to use embedded system for simple
applications. It will also enable them to use open-source embedded system for solving real time problems.
II. INDUSTRY / EMPLOYER EXPECTED OUTCOME
The aim of this course is to help students to attain the following industry/employer expected outcome through
various teaching learning experiences:
"Develop simple applications based on embedded system."
III. COURSE LEVEL LEARNING OUTCOMES (COS)
Students will be able to achieve & demonstrate the following COs on completion of course based learning
CO1 - Select the relevant microcontrollers for various industrial applications.
CO2 - Choose appropriate family of microcontroller for different applications.
CO3 - Interpret the communication standards of embedded systems.
CO4 - Analyze the features of Real Time Operating System.
CO5 - Develop the basic applications using Arduino.
IV. TEACHING-LEARNING & ASSESSMENT SCHEME
Learning Scheme Assessment Scheme
Actual
Contact Based on LL & TL Based
Theory
Course Course Hrs./Week on SL
Course Title Abbr Credits Paper Total
Code Category/s SLH NLH Practical
Duration Marks
FA- SA-
CL TL LL Total FA-PR SA-PR SLA
TH TH
Max Max Max Min Max Min Max Min Max Min
EMBEDDED
315338 ESY DSC 5 - 2 2 9 3 3 30 70 100 40 25 10 25# 10 25 10 175
SYSTEM
MSBTE Approval Dt. 24/02/2025 Semester - 5, K Scheme
Page 1/7
, 10-07-2025 12:31:23 PM
EMBEDDED SYSTEM Course Code : 315338
Total IKS Hrs for Sem. : 0 Hrs
Abbreviations: CL- ClassRoom Learning , TL- Tutorial Learning, LL-Laboratory Learning, SLH-Self Learning
Hours, NLH-Notional Learning Hours, FA - Formative Assessment, SA -Summative assessment, IKS - Indian
Knowledge System, SLA - Self Learning Assessment
Legends: @ Internal Assessment, # External Assessment, *# On Line Examination , @$ Internal Online
Examination
Note :
1. FA-TH represents average of two class tests of 30 marks each conducted during the semester.
2. If candidate is not securing minimum passing marks in FA-PR of any course then the candidate shall be
declared as "Detained" in that semester.
3. If candidate is not securing minimum passing marks in SLA of any course then the candidate shall be
declared as fail and will have to repeat and resubmit SLA work.
4. Notional Learning hours for the semester are (CL+LL+TL+SL)hrs.* 10 Weeks
5. 1 credit is equivalent to 30 Notional hrs.
6. * Self learning hours shall not be reflected in the Time Table.
7. * Self learning includes micro project / assignment / other activities.
V. THEORY LEARNING OUTCOMES AND ALIGNED COURSE CONTENT
Suggested
Theory Learning Outcomes Learning content mapped with Theory Learning
Sr.No Learning
(TLO's)aligned to CO's. Outcomes (TLO's) and CO's.
Pedagogies.
Unit - I Overview of Embedded Systems
1.1 Embedded system, block diagram description,
TLO 1.1 Identify the components
layered model
of the embedded system and
1.2 Characteristics of embedded system: CPU type,
their functions.
maximum CPU speed, processing power, memory,
TLO 1.2 Describe the given
performance Lecture using
characteristic of the specified
1 1.3 Classification of embedded system: small scale, Chalk-Board
embedded system.
medium scale, sophisticated, stand-alone, Presentations
TLO 1.3 Classify the embedded
reactive/real time (soft and hard real time)
system.
1.4 Selection criteria of embedded system:
TLO 1.4 List the selection factors
operating system, reliability, NRE cost, unit cost,
of the embedded systems.
size, flexibility, time to prototype, time to market,
maintainability, correctness and safety
TLO 2.1 Compare different types
of micro controllers used for
embedded system designing.
TLO 2.2 Describe AVR Unit - II Microcontroller Architecture
microcontroller with the help of 2.1 Microcontroller Types: PIC, AVR, ARM, features
block diagram. and applications
Presentations
TLO 2.3 Sketch the block 2.2 AVR microcontroller: types , architecture
Lecture using
diagram of ATmega 8 and 2.3 ATmega 8: features, internal architecture
2 Chalk-Board
describe the functions of each 2.4 Programming configurations of ATmega 8: I/O
Site/Industry
block. port, peripherals counter, timer
Visit
TLO 2.4 Compare specifications 2.5 Comparison of ATmega 8 and ATmega 328
of microcontrollers ATmega 8 2.6 Features of Arduino specific AVR
and ATmega 328. microcontroller ATmega 168/328
TLO 2.5 List the features of
Arduino specific
microcontrollers.
MSBTE Approval Dt. 24/02/2025 Semester - 5, K Scheme
Page 2/7
EMBEDDED SYSTEM Course Code : 315338
: Automation and Robotics/ Digital Electronics/ Electronics & Tele-communication
Engg./ Electrical and Electronics Engineering/
Programme Name/s
Electronics & Communication Engg./ Electronics Engineering/ Industrial Electronics/
Electronics & Computer Engg./
Programme Code : AO/ DE/ EJ/ EK/ ET/ EX/ IE/ TE
Semester : Fifth
Course Title : EMBEDDED SYSTEM
Course Code : 315338
I. RATIONALE
Embedded systems are designed for specific tasks to excel in real-time performance, resource utilization and
reliability. These systems are playing vital role in modern technology, enabling sophisticated functionalities in a
wide array of devices and applications. Embedded systems are integral to the advancement of technology across
multiple sectors. By learning this course, students will develop skills to use embedded system for simple
applications. It will also enable them to use open-source embedded system for solving real time problems.
II. INDUSTRY / EMPLOYER EXPECTED OUTCOME
The aim of this course is to help students to attain the following industry/employer expected outcome through
various teaching learning experiences:
"Develop simple applications based on embedded system."
III. COURSE LEVEL LEARNING OUTCOMES (COS)
Students will be able to achieve & demonstrate the following COs on completion of course based learning
CO1 - Select the relevant microcontrollers for various industrial applications.
CO2 - Choose appropriate family of microcontroller for different applications.
CO3 - Interpret the communication standards of embedded systems.
CO4 - Analyze the features of Real Time Operating System.
CO5 - Develop the basic applications using Arduino.
IV. TEACHING-LEARNING & ASSESSMENT SCHEME
Learning Scheme Assessment Scheme
Actual
Contact Based on LL & TL Based
Theory
Course Course Hrs./Week on SL
Course Title Abbr Credits Paper Total
Code Category/s SLH NLH Practical
Duration Marks
FA- SA-
CL TL LL Total FA-PR SA-PR SLA
TH TH
Max Max Max Min Max Min Max Min Max Min
EMBEDDED
315338 ESY DSC 5 - 2 2 9 3 3 30 70 100 40 25 10 25# 10 25 10 175
SYSTEM
MSBTE Approval Dt. 24/02/2025 Semester - 5, K Scheme
Page 1/7
, 10-07-2025 12:31:23 PM
EMBEDDED SYSTEM Course Code : 315338
Total IKS Hrs for Sem. : 0 Hrs
Abbreviations: CL- ClassRoom Learning , TL- Tutorial Learning, LL-Laboratory Learning, SLH-Self Learning
Hours, NLH-Notional Learning Hours, FA - Formative Assessment, SA -Summative assessment, IKS - Indian
Knowledge System, SLA - Self Learning Assessment
Legends: @ Internal Assessment, # External Assessment, *# On Line Examination , @$ Internal Online
Examination
Note :
1. FA-TH represents average of two class tests of 30 marks each conducted during the semester.
2. If candidate is not securing minimum passing marks in FA-PR of any course then the candidate shall be
declared as "Detained" in that semester.
3. If candidate is not securing minimum passing marks in SLA of any course then the candidate shall be
declared as fail and will have to repeat and resubmit SLA work.
4. Notional Learning hours for the semester are (CL+LL+TL+SL)hrs.* 10 Weeks
5. 1 credit is equivalent to 30 Notional hrs.
6. * Self learning hours shall not be reflected in the Time Table.
7. * Self learning includes micro project / assignment / other activities.
V. THEORY LEARNING OUTCOMES AND ALIGNED COURSE CONTENT
Suggested
Theory Learning Outcomes Learning content mapped with Theory Learning
Sr.No Learning
(TLO's)aligned to CO's. Outcomes (TLO's) and CO's.
Pedagogies.
Unit - I Overview of Embedded Systems
1.1 Embedded system, block diagram description,
TLO 1.1 Identify the components
layered model
of the embedded system and
1.2 Characteristics of embedded system: CPU type,
their functions.
maximum CPU speed, processing power, memory,
TLO 1.2 Describe the given
performance Lecture using
characteristic of the specified
1 1.3 Classification of embedded system: small scale, Chalk-Board
embedded system.
medium scale, sophisticated, stand-alone, Presentations
TLO 1.3 Classify the embedded
reactive/real time (soft and hard real time)
system.
1.4 Selection criteria of embedded system:
TLO 1.4 List the selection factors
operating system, reliability, NRE cost, unit cost,
of the embedded systems.
size, flexibility, time to prototype, time to market,
maintainability, correctness and safety
TLO 2.1 Compare different types
of micro controllers used for
embedded system designing.
TLO 2.2 Describe AVR Unit - II Microcontroller Architecture
microcontroller with the help of 2.1 Microcontroller Types: PIC, AVR, ARM, features
block diagram. and applications
Presentations
TLO 2.3 Sketch the block 2.2 AVR microcontroller: types , architecture
Lecture using
diagram of ATmega 8 and 2.3 ATmega 8: features, internal architecture
2 Chalk-Board
describe the functions of each 2.4 Programming configurations of ATmega 8: I/O
Site/Industry
block. port, peripherals counter, timer
Visit
TLO 2.4 Compare specifications 2.5 Comparison of ATmega 8 and ATmega 328
of microcontrollers ATmega 8 2.6 Features of Arduino specific AVR
and ATmega 328. microcontroller ATmega 168/328
TLO 2.5 List the features of
Arduino specific
microcontrollers.
MSBTE Approval Dt. 24/02/2025 Semester - 5, K Scheme
Page 2/7
