En. Muhamad Asmi bin Romli
 asmi@unimap.edu.my
 M.Sc (Embedded System Design), USM,
2005
 B.Eng (Electric & Electronics –
Microelectronics), USM, 2000

National Instruments, 2010

EKT314/4 - Electronic Instrumentation
2
En. Zahari bin Awang Ahmad
 zahari@unimap.edu.my
 M.Sc (Computer and Microelectronic
System), UTM, 2009
 B.Eng (Electric & Electronics), University of
Kentucky, US, 1994
 Industrial Collaboration & Quality
Management Coordinator

EKT314/4 - Electronic Instrumentation
3
Master of Engineering
Computer and Microelectronics
System(2009)
BSc Electrical Engineering
1994
EKT314/4 - Electronic Instrumentation
4
EKT314/4 - Electronic Instrumentation
5
En. Phak Len a/l Eh Kan
 phaklen@unimap.edu.my
 M.Sc in Information Technology, UUM
 B.Eng (Hons) in Electronic, UTM
 Ph.D, Birmingham, UK (soon to graduate)

EKT314/4 - Electronic Instrumentation
6
Dr. Abdul Hafiizh bin Ismail
 hafiizh@unimap.edu.my
 Ph.D (Wireless Communication
Engineering), Ibaraki University, Japan,
2011
 M.Eng Electrical & Electronic Engineering
(Telecommunication), UTM, 2005
 B.Eng (Media and Telecommunication
Engineering) Ibaraki University, Japan,
2003

EKT314/4 - Electronic Instrumentation
7
2012
Latest
Invention
EKT314/4 - Electronic Instrumentation
8
Avoid:
•High power
•High cost
•High
maintenance
2012
Latest
Invention
EKT314/4 - Electronic Instrumentation
9
4 Gold Medals
in 2012 UniMAP
Exhibition
EKT314/4 - Electronic Instrumentation
10
EKT 102 Electronic Devices
 EKT 120 Computer Programming
 EKT 303 Principle of Comp. Architecture
 EKT 308 Modern Control System
 EKT 314 Electronic Instrumentation
 EKT 341 Antenna and Propagation
 EKT 444 Final Year Project

EKT314/4 - Electronic Instrumentation
11

Code
› EKT 314
› [E] - Engineering
› [K] - Komputer
› [T] - Teras

Name
› Electronic Instrumentation

Unit
› 4
EKT314/4 - Electronic Instrumentation
12
Electronic Instrumentation
Electronic Instrumentation
Electronic Instrumentation
Electronic Instrumentation
Data Acquisition
Electronic Instrumentation
Data Acquisition
Processing
Electronic Instrumentation
Data Acquisition
Control
Processing
Electronic Instrumentation
Data Acquisition
Control
Processing
Electronic Instrumentation
Data Acquisition
i.
Control
Data Acquisition + Processing
Processing
Electronic Instrumentation
Data Acquisition
Control
i.
Data Acquisition + Processing
ii.
Processing + Control
Processing
Electronic Instrumentation
Data Acquisition
Control
i.
Data Acquisition + Processing
ii.
Processing + Control
iii. Data Acquisition + Processing +
Control
Processing
Electronic Instrumentation
Data Acquisition
Control
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Bus
Driver
Software
Processing
Application
Software
Bus
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Bus
Driver
Software
Processing
Application
Software
Bus
Electronic Instrumentation
Sensors
Actuators
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Bus
Driver
Software
Processing
Application
Software
Bus
Electronic Instrumentation
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Electronic Instrumentation
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Electronic Instrumentation
Data Acquisition
Control
Sensors
Actuators
Data Acquisition Device
Data Driver Device
Signal Conditioning
Signal Conditioning
Analog-Digital Converter
Digital-Analog Converter
Bus
Driver
Software
Processing
Application
Software
Bus
Electronic Instrumentation
Data Acquisition
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processing
Application
Software
Electronic Instrumentation
Data Acquisition
Sensors
Data Acquisition Device
Signal Conditioning
Analog-Digital Converter
Bus
Driver
Software
Processor
Application
Software
Electronic Instrumentation
Data Acquisition
Bus
Control
Processor
Bus
Electronic Instrumentation
Data Acquisition
Bus
Control
Processor
Bus
Electronic Instrumentation
Electronic Instrumentation
2+2 hours
4 hours
4 hours
4 hours
4+2 hours
4+2 hours
Total:
28 hours full lecture

Lecture
› 2 hours x 12 weeks = 24 hours

Tutorial
› 2 hours x 2 weeks = 4 hours

Lab
SLT = 171.68
Credit = 4.29
› Lab – 36 hours
› Lab Assignment - 2 hours
› Lab Project - 20 hours
EKT314/4 - Electronic Instrumentation
50

Lecture Slot
› 8 hours x 5 weeks = 40 hours
› 4 hours x 1 week = 4 hours

Practical Slot
› 8 hours x 3 week = 24 hours
SLT = 161.48
Credit = 4.04
› 4 hours x 1 week = 4 hours
EKT314/4 - Electronic Instrumentation
51
EKT314/4 - Electronic Instrumentation
52
Ses.
Lecture
Lecturer
Comment
Overall Course Info
1
Briefing
(2 hours)
En. Asmi
2
Chapter 1
(2 hours)
En. Zahari
Introduction to Electronic
Instrumentation
3
Chapter 2
(4 hours)
En. Zahari
Transducers
4
EKT314/4 - Electronic Instrumentation
53
Ses.
Lecture
Lecturer
5
Chapter 3
(4 hours)
Comment
Dr. Abdul Hafiizh Signal Conditioning & Conversion
6
7
Chapter 4
(4 hours)
Dr. Abdul Hafiizh Data Acquisition Systems
25/03/12 – 31/03/12 Test 1
8
EKT314/4 - Electronic Instrumentation
54
Ses.
Lecture
Lecturer
9
Chapter 5
(4 hours)
En. Asmi
Comment
Virtual Instrumentation
Chapter 6
(4 hours)
En. Phak Len
Instrumentation System Design
10
12
14
EKT314/4 - Electronic Instrumentation
55
Ses.
Lecture
Lecturer
11
Tutorial
(4 hours)
All Lecturers
Comment
1/5/12 Labour Day
13/05/12 – 19/05/12 Test 2
17/5/12 Raja Perlis Birthday
13
17/5/12 Wesak Day
EKT314/4 - Electronic Instrumentation
56
Date
Slot # Note
3/3/2012
1
Course Introduction
2
Chapter 1
3
4
Exercise / Discussion on Chapter 1
5
Chapter 2
6
7
Exercise / Discussion on Chapter 2
8
Daily Conclusion
EKT314/4 - Electronic Instrumentation
57
Date
Slot # Note
10/3/2012
1
Exercise / Discussion / Review on Chapter 1 & 2
2
Chapter 2
3
4
Exercise / Discussion on Chapter 2
5
Chapter 3
6
7
Exercise / Discussion on Chapter 3
8
Daily Conclusion
EKT314/4 - Electronic Instrumentation
58
Date
Slot # Note
31/3/2012
1
Exercise / Discussion / Review on Chapter 1, 2 & 3
2
Chapter 3
3
4
Exercise / Discussion on Chapter 3
5
Chapter 4
6
7
Exercise / Discussion on Chapter 4
8
Daily Conclusion
EKT314/4 - Electronic Instrumentation
59
Date
Slot # Note
12/5/2012
1
Exercise / Discussion / Review on Chapter 1, 2 & 3
2
Chapter 4
3
4
Exercise / Discussion on Chapter 4
5
Chapter 5
6
7
Exercise / Discussion on Chapter 5
8
Daily Conclusion
EKT314/4 - Electronic Instrumentation
60
Date
Slot # Note
26/5/2012
1
Exercise / Discussion / Review on Chapter 1, 2, 3, 4 &5
2
Chapter 5
3
4
Exercise / Discussion on Chapter 5
5
Chapter 6
6
7
Exercise / Discussion on Chapter 6
8
Daily Conclusion
EKT314/4 - Electronic Instrumentation
61
Date
Slot # Note
23/6/2012
1
Chapter 6
2
Chapter 6
3
Exercise / Discussion on Chapter 6
4
Overall Discussion & Conclusion
EKT314/4 - Electronic Instrumentation
62
63
Outcome Based Education
(OBE)
EKT314/4 - Electronic Instrumentation
COs
Description
CO1
Ability to Understand Transducer’s Operation and Select
Appropriate Transducers for Applications
CO2
Ability to Understand Signal Conditioning and Propose Suitable
Method for Data Acquisition
CO3
Ability to Understand and Implement Virtual Instrumentationbased Solution for Given Problems.
CO4
Ability to Implement Transducers, Signal Conditioning, Data
Acquisition & Virtual Instrumentation In Instrumentation Design
EKT314/4 - Electronic Instrumentation
64
POs Description
1
Ability to acquire and apply knowledge of mathematics, science,
engineering and an in-depth technical competence in electronic
Computer/Communication/Computer Network engineering
discipline.
2
Ability to identify, formulate and solve engineering problems.
3
Ability to design a system, component or process to meet desired
needs.
4
Ability to design and conduct experiments, as well as to analyze
and interpret data.
5
Ability to use techniques, skills and modern engineering tools
necessary for engineering practices.
EKT314/4 - Electronic Instrumentation
65
POs Description
6
Ability to demonstrate the social, cultural, global and
environmental responsibilities of a professional engineer.
7
Ability to understand entrepreneurship, the process of innovation
and the need for sustainable development of the environment.
8
Ability to understand professional and ethical responsibilities and
commitment to the society.
9
Ability to function on multi-disciplinary teams.
10
Ability to communicate effectively.
11
Understanding of the need for, and an ability to engage in lifelong learning.
12
Ability to acquire of project management and finance principles.
EKT314/4 - Electronic Instrumentation
66
PEOs Description
1
Graduates who are leaders in the field of
Computer/Communication/Computer Network Engineering or
chosen field as demonstrated via career advancement.
2
Graduates who are members of and contribute to professional
society.
3
Graduates who engage in life-long learning or continuous
education opportunities.
4
Graduates who contribute towards research and development.
5
Graduates who are entrepreneurial engineers.
EKT314/4 - Electronic Instrumentation
67
68
Course Info
EKT314/4 - Electronic Instrumentation


Course Work
Grade Mark
› Lab Test – 5%
A
› Lab Project & Viva – 15%
80 –
100
A-
75 – 79
› Log Book / Assignment – 10%
B+
70 – 74
B
65 – 69
› Final Exam – 50%
B-
60 – 64
C+
55 – 59
› Test 1 – 10%
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
Exam Work
› Test 2 – 10%
EKT314/4 - Electronic Instrumentation
69

Course Work
› 50%

Exam Work
› 50%
EKT314/4 - Electronic Instrumentation
Grade Mark
A
80 –
100
A-
75 – 79
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
70
 Anthony
J.W., Ahmad R.G.
Introduction to Engineering
Experimentation, 3rd. Ed.
Pearson, 2010
EKT314/4 - Electronic Instrumentation
71
 John
P.B. Principles of
Measurement Systems, 4th
Ed. Pearson Prentice Hall,
2005
EKT314/4 - Electronic Instrumentation
72
 Kalsi,
H.S. Electronic
Instrumentation. Tata
McGraw-Hill Publishing Co.
Ltd., 2005
EKT314/4 - Electronic Instrumentation
73
 C.S.
Rangan, G.R. Sarma
and V.S. Mani.
Instrumentation Devices &
Systems, Tata McrGraw-Hill
Publishing Co. Ltd., 2004
EKT314/4 - Electronic Instrumentation
74
Analog Electronics
 Digital Electronics
 Computer Programming
 Embedded System Design

EKT314/4 - Electronic Instrumentation
75
"I see and I forget, I hear and I remember, I do and I
understand." - Confucius
EKT314/4 - Electronic Instrumentation
76
Mind Mapping
 Reference
 Note
 Exercise

EKT314/4 - Electronic Instrumentation
77
Prepared
 Download, Print & Bring Lecture Note
 Copy Mind Map
 Wear Suitable Attire
 Silence Your Cell Phone
 Ask Question Anytime Needed
 Sleep in Class…

EKT314/4 - Electronic Instrumentation
78
Come Late
 Make Noise
 Disturb Your Friend
 Tell Where You Want to Go
 Absent

EKT314/4 - Electronic Instrumentation
79

Lecture
› 2 hours x 14 weeks = 22 hours

Tutorial
› 2 hours x 3 weeks = 6 hours

Lab
SLT = 171.68
Credit = 4.29
› Lab – 36 hours
› Lab Assignment - 2 hours
› Lab Project - 20 hours
EKT314/4 - Electronic Instrumentation
82


Course Work
Grade Mark
› Lab Test – 5%
A
› Lab Project & Viva – 15%
80 –
100
A-
75 – 79
› Log Book / Assignment – 10%
B+
70 – 74
B
65 – 69
› Final Exam – 50%
B-
60 – 64
C+
55 – 59
› Test 1 – 10%
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
Exam Work
› Test 2 – 10%
EKT314/4 - Electronic Instrumentation
83

Lab Test (5%)
Grade Mark
› On Screen Test
A
› 40 Questions
80 –
100
A-
75 – 79
› 1 hour
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
› 1 Roll
› 1.5 minutes per question
EKT314/4 - Electronic Instrumentation
84

Lab Project (10%)
Grade Mark
› Pair
A
› Use Sensor
80 –
100
A-
75 – 79
› Use DAQ
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
› Predefined Task
EKT314/4 - Electronic Instrumentation
85

Project Viva (5%)
Grade Mark
› Code Verification
A
› Q&A
80 –
100
A-
75 – 79
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
EKT314/4 - Electronic Instrumentation
86

Log Book (8%)
Grade Mark
› Session Report
A
› Assignment Report
80 –
100
A-
75 – 79
› Project Report
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
› Keep in the Lab
EKT314/4 - Electronic Instrumentation
87

Lab Assignment (2%)
Grade Mark
› Task Given
A
› Create .exe
80 –
100
A-
75 – 79
› Email
B+
70 – 74
B
65 – 69
B-
60 – 64
C+
55 – 59
C
50 – 54
C-
45 – 49
D+
40 – 44
Fail
0 – 39
EKT314/4 - Electronic Instrumentation
88
Ses.
Lab
1
Instructor-Led 1
Comment
Navigating LabVIEW
Instructor-Led 2
Troubleshooting and Debugging
Instructor-Led 3
Implementing a VI
Instructor-Led 4
Relating Data
Instructor-Led 5
Managing Resources
Instructor-Led 6
Developing Modular Application
Instructor-Led 7
Common Design Techniques
Instructor-Led 8
Using Variables
Instructor-Led 9
Setting Up & Troubleshooting Hardware
2
3
4
5
EKT314/4 - Electronic Instrumentation
89
Ses.
Lab
5
Exercise Lab 1
Comment
Function Generator
6
Exercise Lab 2
Oscilloscope
Exercise Lab 3
Function Generator & Oscilloscope
Exercise Lab 4
Temperature Sensor *Test 1
Exercise Lab 5
Humidity Sensor
Exercise Lab 6
DAQ Module Control
Exercise Lab 7
Create simple complete system
Exercise Lab 8
Create simple complete system
Lab Test
On-Screen Test (29/04/12 – 05/05/12)
7
8
9
EKT314/4 - Electronic Instrumentation
90
Ses.
Lab
10
Lab Project – 20
hours
11
Comment
12
Test 2 – Ch 4, 5 & Lab
13
14
Presentation,
Demo, Viva
EKT314/4 - Electronic Instrumentation
91