Bachelor of Science in Electronics & Communications Engineering (Licensed Engineer and teaching since 1993)
Master of Science in Information Technology (2005)
Bachelor of Laws (4th year)
Currently holding the position IT Consultant in two international companies. A part-time state university professor as well since 1993.
Experience: 17 years
About me
State university professor since 1993 (17 years experience) teaching all major subjects (1st year to 5th year subjects) of Bachelor of Science in Electronics & Communications Engineering. Licensed electronics and communications engineer since 1993.
14 years extensive local & overseas experience in HP-Unix, Linux and Windows Operating Systems Client-Server Environment and corporate lecturer both here and abroad.
Topics covered:
ELECTRONICS ENGINEERING
1. Electricity/ Magnetism Fundamentals
Atomic structure
Electric charge
Laws (Ohms, Kirchoff, Coulomb, etc)
Magnetic power
Magnetic field/flux
Magnetic/electric quantities/units
Magnetic/electromagnet principles
III.
ELECTRONICS ENGINEERING
2. Electrical Circuit
Ac-dc circuits
Resistors
Inductors
Capacitor
III.
ELECTRONICS ENGINEERING
3. Solid State Devices/Circuits
Semi-conductor fundamentals
Transistor components, circuits,
analysis, and design
Special services (photo, electric, photo
voltaic etc.)
III.
ELECTRONICS ENGINEERING
4. Power Generator/ Sources/ Principles/
Applications
Cells and batteries
Electric generator
Electronic power supply
Voltage regulation
Photovoltaic/thermoelectric generator
Distribution transformers
UPS/float-battery system
Converters/inverters
III.
ELECTRONICS ENGINEERING
5. Electronic (Audio/RF) Circuit/ Analysis/Design Cells and batteries
Amplifiers
Oscillators
Rectifier
Filters
Voltage regulation
III.
ELECTRONICS ENGINEERING
6. Tests and Measurements
Volt-ohm-ammeter (analog/digital)
R-L-Z bridges
Oscilloscope
Cable testers
RF meters
Signal generators (audio, RF, video)
Noise generators
Power/reflectometer/grid dip meter
III.
ELECTRONICS ENGINEERING
7. Microelectronics
Integrated circuits components,
characteristics and products
Operational amplifiers/multivibrators
III.
ELECTRONICS ENGINEERING
8. Industrial Electronics Principles/
Applications
Electronic control system
Industrial solid state services
Welding systems/high frequency heating
Feedback systems/servomechanism
Transducers
Motor speed control systems
Instrumentation and control
III.
ELECTRONICS ENGINEERING
9. Computer Principles
Analog/digital systems
Binary number system/Boolean algebra
Mathematical logic and switching
networks
Basic digital circuits (logic, gates, flip-
flops, multivibrators etc.)
Static and dynamic memory devices
Programming and machine languages
Information and acquisition processing
Analog/digital conversion
Computer networking
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
a. Transmission Fundamentals
Transmission system
Transmission medium
Primary line constants
Velocity and line wavelength
Characteristic Impedance
Propagation constants
Phase and group velocity
Standing waves
Voltage Standing Wave Ratio
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
a. Transmission Fundamentals
Telephone lines and cables
Wave guides
Balanced and unbalanced lines
Uniformly distributed lines
Twisted pair wire
Coaxial Cable
The Decibel
Power level Calculations
Signal and Noise Fundamentals
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
b. Acoustics
Definition
Frequency range
Sound pressure level
Sound Intensity
Loudness Level
Pitch and Frequency
Interval and Octave
Sound distortion
Room Acoustics
Electro-Acoustic Transducers
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
c. Modulation
Amplitude modulation
Phase modulation
Frequency modulation
Pulse modulation
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
d. Noise
External noise
Internal noise
Noise calculation and measurements
Radio interference
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
e. Radiation and Wave Propagation
Electro Magnetic Radiation
Radio Spectrum
Wave Propagation
Radiation Patterns
Wavelength calculations
Radiation resistance
Diversity systems
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
f. Antennas
Basic considerations
Wire Radiators in Space
Isotropic Radiator
Current and Voltage Distribution
Resonant, non-resonant antennas
Terms and definition
Antenna gain and resistance
Bandwidth, beamwidth, polarization
Effects of ground on antennas
Grounded, ungrounded antennas
IV. ELECTRONICS SYSTEMS AND TECHNOLOGIES
1. Radio Communication System
f. Antennas
Grounding systems
Antenna height
Design and applications
Matching systems
Impedance Calculations
Antenna types
Directional and non-directional
Microwave Antennas
Wideband and Special Purpose
Antennas
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
1. Radio Communication System
g. Wire and Wireless
Communications
System
The telephone set
Connection and performance
Exchange Area Plant
Loop Design
Trunks in the Exchange Plant
Insertion Loss
Traffic Calculations
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
1. Radio Communication System
g. Wire and Wireless
Communications
System
Reference Equivalent and Standards
Telephone networks
Signaling, Billing, CAMA, ANI
Echo, Singing and Design Loss
Via Net Loss
Network Hierarchy, Class Type
VF Repeaters
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
1. Radio Communication System
g. Wire and Wireless Communications System
Transmission Considerations in Long
Distance Network
Telephone Exchanges
PSTN, PABX, Line Concentration
Telephone features-IDD, NDD,LEC
Mobile Communications
Cellular communication, trunk radio, radio paging system etc.
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
1. Radio Communication System
h. Microwave Communications and Principles
i. Basic Principles of various electronics systems
Electro-optics, photonics/optoelectronics
Electromagnetics
Avionics, aerospace/ navigational and military operations
Medical Electronics
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
2. Digital and Data Communications Systems
a. Digital Communication Networks
Bit and Binary Transmission
Signaling Rate
Error Probability
Digital Filtering
Switching
Packet Circuit
Vertical Circuit
Open Systems Interconnection
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
2. Digital and Data Communications Systems
a. Digital Communication Networks
Multiplexing, Modulation and Synchronization
Pulse Code modulation
Companding
Encoding
Bandwidth and Signal to Noise Ratio
Delta Modulation
Slope Overload
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES
2. Digital and Data Communications Systems
a. Digital Communication Networks
Adaptive Delta Modulation
Codes and Protocols
Error Detection and