Seminar on
Examination Awareness
PROFESSIONAL REGULATORY
BOARD OF ELECTRONICS
ENGINEERING
By:
Engr. Joel B. Bajador, PECE, MBA
Why do we conduct seminar
on Board Exam Awareness?


Assist Students and would-be takers of
Board examinations in knowing and
understanding, the PRC procedures and
processes undertaken to preserve the
Integrity of the Licensure Examinations
administered by them
To inform students, faculty members and
would-be takers of board examinations, how
questions given in the examinations are
formulated.
Why do we conduct seminar
on Board Exam Awareness?


To inform students, would-be takers and
repeaters, suggested methods or techniques
to be done to prevent them from committing
mistakes that would render their answers to
board questions, invalid.
To let them know some DO’s and DON’Ts in
taking the board examination
PRC Procedures and Processes To
Ensure the Integrity of the Licensure
Examination
1.
Preparation of Questions
a. How many?
Initially 500 , then at least 300 per
examination to be added or merge to past
questions.
b. What are the types of questions
made?
Multiple Choice .
Preparation of Questions
c. Sources of questions
Textbooks, reference materials, technical
standards adopted nationally and
internationally (such as IEEE, ISO, IEC,
ITU-T etc.), other technical publications
from suppliers, vendors of electronic
components, devices and equipments,
and from the Internet.
Preparation of Questions
d. Basis of formulated questions
1) Table of Specifications (TOS)
It is a competency-based
description/ specifications of
questions that will test for the
competency of examinees
Preparation of Questions
d. Basis of formulated questions
2) Subjects and Syllabi
-Mathematics – 20 %
-Electronics Engineering – 30%
-General Engineering and
Applied Sciences – 20%
-Electronics Systems and
Technologies – 30%
Preparation of Questions
d. Basis of formulated questions
2) Subjects and Syllabi
ECE SYLLABI
I. MATHEMATICS (20%)
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1. Algebra & General Mathematics
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Algebraic functions
Theory of equations
Factorization and algebraic functions
Ratio, proportion and variation
Matrix theory
Arithmetic and geometric progressions
Equations and inequalities
Linear and quadratic equations
Complex number system
Polynomials
Mathematical induction
Logic and probability
Statistics
I. MATHEMATICS (20%)

2. Geometry
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Lines and planes
Plane figures
Application of Cavalier’s, Pappus and
Prismodial theorems
Coordinates in space
Quadratic surfaces
Mensuration
Plane geometry
Solid geometry
Spherical geometry
Analytical geometry
I. MATHEMATICS (20%)

3. Trigonometry
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Logarithmic principles
Trigonometric functions
Fundamental trigonometric identities
Solutions of right and oblique triangles
Applications of terrestrial mensuration
Area, perimeter and centroid of plane figures
Polar coordinates
Spherical trigonometry
I. MATHEMATICS (20%)

4. Calculus
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Complex variables
Derivatives and applications
Integration and applications
Transcendental functions
Partial derivatives
Higher derivatives
Indeterminate forms
Multiple integrals
Differential equations
I. MATHEMATICS (20%)

5. Mathematics Laws, Terms and Theories

Laws, theories and other rules relative to
the fields of mathematics
II. GENERAL ENGINEERING &
APPLIED SCIENCES (20%)
1. Engineering Mechanics

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Statics
Kinetics
Kinematics
2. Strength of Materials
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Stress
Strain
Torsion
Elasticity
II. GENERAL ENGINEERING &
APPLIED SCIENCES (20%)
3. Engineering Materials

Properties of Engineering Materials
4. College Physics, General Chemistry,
Thermodynamics
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Matter, Change, Energy
Structure of Matter
Forces and Motion
Heat
Sound
Light
Magnetism
Electricity
II. GENERAL ENGINEERING &
APPLIED SCIENCES (20%)
5. Engineering Economics and
Management
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Simple and Compound Interest
Annuity, Depreciation,
Commercial Papers
Break-Even Analysis
Management Concepts and
Principles
II. GENERAL ENGINEERING &
APPLIED SCIENCES (20%)
6. Laws and Ethics
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Contracts and Specifications
Telecommunications and broadcasting
laws and regulations
Electronics engineering law of 2004
Code of professional ethics and conduct
Philippine electronics code
Code of Technical Standards and
Practice (Manual of Practice)
III.

ELECTRONICS ENGINEERING
(30%)
1. Electricity/ Magnetism Fundamentals
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Atomic structure
Electric charge
Laws (Ohms, Kirchoff, Coulomb, etc)
Magnetic power
Magnetic field/flux
Magnetic/electric quantities/units
Magnetic/electromagnet principles
ELECTRONICS ENGINEERING
(30%)
III.
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2. Electrical Circuit

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Ac-dc circuits
Resistors
Inductors
Capacitor
III.
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ELECTRONICS ENGINEERING
(30%)
3. Solid State Devices/Circuits

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Semi-conductor fundamentals
Transistor components, circuits,
analysis, and design
Special services (photo, electric, photo
voltaic etc.)
III.
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ELECTRONICS ENGINEERING
(30%)
4. Power Generator/ Sources/ Principles/
Applications
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Cells and batteries
Electric generator
Electronic power supply
Voltage regulation
Photovoltaic/thermoelectric generator
Distribution transformers
UPS/float-battery system
Converters/inverters
III.
III. ELECTRONICS
ELECTRONICS ENGINEERING
ENGINEERING
(30%)
(30%)
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5. Electronic (Audio/RF) Circuit/
Analysis/Design Cells and batteries
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Amplifiers
Oscillators
Rectifier
Filters
Voltage regulation
III.
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ELECTRONICS ENGINEERING
(30%)
6. Tests and Measurements

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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.
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ELECTRONICS ENGINEERING
(30%)
7. Microelectronics

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Integrated circuits components,
characteristics and products
Operational amplifiers/multivibrators
III.
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ELECTRONICS ENGINEERING
(30%)
8. Industrial Electronics Principles/
Applications

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Electronic control system
Industrial solid state services
Welding systems/high frequency heating
Feedback systems/servomechanism
Transducers
Motor speed control systems
Robotic principles
Bioelectrical principles
Instrumentation and control
III.
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ELECTRONICS ENGINEERING
(30%)
9. Computer Principles
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Analog/digital systems
Binary number system/Boolean algebra
Mathematical logic and switching
networks
Basic digital circuits (logic, gates, flipflops, 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 (30%)
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1. Radio Communication System
 a. Transmission Fundamentals
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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 (30%)

1. Radio Communication System
 a. Transmission Fundamentals
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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 (30%)

1. Radio Communication System
 b. Acoustics
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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 (30%)

1. Radio Communication System
 c. Modulation
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Amplitude modulation
Phase modulation
Frequency modulation
Pulse modulation
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

1. Radio Communication System
 d. Noise
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External noise
Internal noise
Noise calculation and measurements
Radio interference
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

1. Radio Communication System
 e. Radiation and Wave Propagation
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Electro Magnetic Radiation
Radio Spectrum
Wave Propagation
Radiation Patterns
Wavelength calculations
Radiation resistance
Diversity systems
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

1. Radio Communication System
 f. Antennas
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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 (30%)
 1. Radio Communication System

f. Antennas
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Grounding systems
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Antenna height
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Design and applications
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Matching systems
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Impedance Calculations
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Antenna types
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Directional and non-directional
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Microwave Antennas
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Wideband and Special Purpose
Antennas
IV. ELECTRONICS SYSTEMS AND

TECHNOLOGIES (30%)
1. Radio Communication System
 g. Wire and Wireless
Communications
System
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The telephone set
Connection and performance
Exchange Area Plant
Loop Design
Trunks in the Exchange Plant
Insertion Loss
Traffic Calculations
IV. ELECTRONICS SYSTEMS AND
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TECHNOLOGIES (30%)
1. Radio Communication System
 g. Wire and Wireless
Communications
System
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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 (30%)

1. Radio Communication System
 g. Wire and Wireless Communications
System
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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 (30%)

1. Radio Communication System
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h. Microwave Communications and
Principles
i. Basic Principles of various electronics
systems
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Electro-optics, photonics/optoelectronics
Electromagnetics
Avionics, aerospace/ navigational and
military operations
Medical Electronics
Cybernetics
Biometrics
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

2. Digital and Data Communications
Systems
 a. Digital Communication Networks
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Bit and Binary Transmission
Signaling Rate
Error Probability
Digital Filtering
Switching
Packet Circuit
Vertical Circuit
Open Systems Interconnection
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

2. Digital and Data Communications Systems
 a. Digital Communication Networks
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Multiplexing, Modulation and
Synchronization
Pulse Code modulation
Companding
Encoding
Bandwidth and Signal to Noise Ratio
Delta Modulation
Slope Overload
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

2. Digital and Data Communications
Systems
 a. Digital Communication Networks
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Adaptive Delta Modulation
Codes and Protocols
Error Detection and Correction Codes
Digital Carrier Systems
Frequency Shift Keying
Phase Shift Keying
Differential Phase Shift Keying
DC Nature of Data Transmission
Loops
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

2. Digital and Data Communications
Systems
 a. Digital Communication Networks
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Neutral and Polar
Binary Transmission and the Concept
of Time
Asynchronous and Synchronous
Timing
Distortion
Bits, Band, WPM
Data Interface Standards
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)

2. Digital and Data Communications
Systems
 a. Digital Communication Networks
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Data Input/Output Devices
Digital Transmission on Analog
Channel
Modulation-Demodulation Schemes
Parameters
Circuit Conditioning
Modem Applications
Serial and Parallel Transmission
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)
 2. Digital and Data Communications
Systems
 b. Fiber Optics
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Principles of Light, Transmission
Types
Light Sources, Laser, LED
Light Detectors
Modulation and Waveform
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)
 2. Digital and Data Communications
Systems
 b. Fiber Optics
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System Design
General Application
Design Procedure
Dispersion Limited Domain
System Bandwidth
Splicing Techniques
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)
 3. Satellite , Broadcasting and Cable TV
Systems
 a. Satellite System
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The Satellite System
Types of Satellite
Satellite Orbit
Uplink Considerations
Demand Assignment Multiple Access
Antenna Tracking
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)
 3. Satellite , Broadcasting and Cable TV
Systems
 a. Satellite System
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Satellite Link Budgets
Path Loss
Figure of Merit
Ratio of Carrier to Thermal Noise
Power
Station Margin
VSAT
IV. ELECTRONICS SYSTEMS AND
TECHNOLOGIES (30%)
 3. Satellite , Broadcasting and Cable TV
Systems
 b. Broadcasting and Cable TV
systems

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
Radio Transmitter (AM, FM,
Television )
Studio (Microphone, Amplifiers,
Cameras, Lighting, etc.)
Cable Television
ENCODING OF TEST QUESTIONS


Using Diskettes, questions are encoded
with PRC prepared questions and answers
(Multiple Choice) format.
Encoding maybe done by the Board
Members themselves or they may bring it to
PRC to be encoded by Encoders of the
Commission.
ENTRY OF ENCODED QUESTIONS
TO PRC DATA BANK / MACHINE

All encoded questions are entered into the
PRC data bank machine. Additional
questions are merged with the remaining
questions in the Board Member’s data bank.
EXTRACTION OF QUESTIONS TO
BE GIVEN IN THE BOARD EXAM


100 questions are extracted from the Data
Bank of the Board Member (BM),(except
Math., only 50 questions are given), 2 or 3
days before the start of the Board Exam.
PRC Data Bank Machine selects from the
prepared Matrix of the BM , specifying how
many Easy, Moderate and Difficult questions
will be extracted from among the topics in
his/her data bank.
EXTRACTION OF QUESTIONS TO
BE GIVEN IN THE BOARD EXAM

As a Security Measure, the password of the
Commissioner is placed in the Diskette and
the downloaded questions are in an
encrypted form, readable only by PRC
Machine.
QUESTIONS IN THE DISKETTES ARE
SENT TO TEST SITES

Diskette Custodians are sent to PRC
Regional Offices where exams will be
conducted or at test sites. For Manila exam,
the PRBs stay in PRC Main Office.
QUESTIONS IN THE DISKETTES ARE
SENT TO TEST SITES

The night before the scheduled exam date,
the diskette custodian, the PRC personnel
who will sort, copy and prepare the
reproduced test questions for delivery to
different test sites, (arranged per classroom),
will go to the CONDIDENTIAL ROOM or
CONFI ROOM. They are joined by NBI and
PNP representative and outside the door of
the CONFI ROOM, PRC security guard and a
PNP personnel stand on guard.
QUESTIONS IN THE DISKETTES ARE
SENT TO TEST SITES

The CONFI RM, is an air-conditioned room
located at the Main and Regional Offices of
PRC. It is a room with no windows, with one
door, with kitchen, toilet and bedroom for the
PRB members. It contains also working
tables, papers, office supplies, computer, and
printing and duplicating equipment.
No
means of communicating from inside the
room to outside is allowed, but a there is a
telephone located near the security guard
outside the door.
QUESTIONS REPRODUCED
INSIDE THE CONFI ROOM

At about 8 pm, on the night before the start of
exam, the diskettes are given to the NBI
representative for inspection, to see if the
seal is intact. Then, he signs the slip and
hands over the diskette to the computer
operator. The operator, together with the
diskette custodian, go to the security guard
outside the room and calls the office of the
PRC Commissioner to get the PASSWORD
of the Commissioner. Afterwards, they go
back to the CONFI RM and download the
test questions to be given the next day.
QUESTIONS REPRODUCED
INSIDE THE CONFI ROOM

After the test questions are reproduced, the
Board Member in charge of the subject
examines the printed questions and makes
corrections if necessary. Then the Board
Member calls all test sites to make the
corrections. Only after the Board Member
has called all test sites will the reproduction
of all test questions start.
QUESTIONS REPRODUCED
INSIDE THE CONFI ROOM

If the exam is for two days, then the
preparation of the questions for the 2nd day
will be done the night before the next day.
The same procedure will be followed.
Nobody is allowed to leave the room, and no
things will be allowed to be brought outside
the room. Everybody will be allowed to leave
the room only after 6 pm the next day.
ACTUAL EXAMINATION
CONDUCTED

Test questions are distributed to examinees,
together with the Computer-Formatted ID
Sheet and Answer Sheets. One Answer
sheet per subject. Instructions are given and
examination conducted. The ID sheets are
collected and the complete set of questions
together with the corresponding Answer
Sheet is collected.
CORRECTION OF PAPERS


The collected questions are shredded on the
test site, immediately after the examination.
The answer sheets are placed in sealed
envelopes and packed, to be brought back to
PRC main office to be corrected the next
working day upon receipt by the Rating
Division.
The answer sheets are first fed to the OMI
reader. There are several OMI machines, that
for about 3or 5 thousand sheets can be read
in about 2 or 3 hours.
CORRECTION OF PAPERS



The next day, the BM submits the Computerized
Answer Key, which is fed into the Machine, for
consolidation with the answers read previously.
Statistics are generated by the Machine, that prints
out the Item by Item answers, with the
corresponding percentage. The BM takes note of
the statistic generated and conducts Item Analysis.
Then the passing rate is determined from Mean
Scores. This is done in all subjects, and finally, the
passing rating per subject is determined.
The correction of papers are watched by a
representative from the NBI and is done solely at
the Rating Division’s room.
CORRECTION OF PAPERS


Ratings - To pass the licensure examination,
a candidate for ECE or ECT must obtain a
passing rating of seventy percent (70%) in
each of the four general subjects given
during the examination.
A candidate who obtains a passing rating in
the three subjects, but obtains a rating in
one subject below 70%, but not lower than
60%, shall be allowed to take one removal
examination on the subject where he/she
failed to obtain the passing rating.
RELEASE OF BOARD
EXAMINATION RESULT


On the third day, the ID Sheets are read by
the OMI reader and merged with the result
read from the previous day. Now, the scores
and the name of the examinees are printed
alphabetically. The machine also generates
the list of the top 20 and all passers, and the
School performance sheet.
As soon as one of the Commissioners of
PRC approves the result, the Official Ratings
of all examinees are released. Typically, 2 to
3 days after start of correction, the result is
released.
DO’S AND DON’T’S IN
TAKING THE BOARD
EXAMINATION
PREPARATION

Do take the Board exam FULLY PREPARED


Do brush-up on your MATHEMATICS,
SCIENCES AND ENGLISH
Do conduct review – especially on subjects
included in board exam. The subjects are :
Mathematics,
Electronics
Engineering,
General Engineering and Applied Sciences
SELF-REVIEW



Do refer to the SYLLABI for each subject
given in Board Exams. It is found in the IRR
of RA 9292. or the Electronics Engineering
Law of 2004.
Do look for your old notes, lectures,
textbooks and other reference materials in
your possession or
Do visit libraries
SELF-REVIEW

Do refer to past board questions to have an
idea of how questions are formulated, but do
not memorize the questions and answers, as
the possibility that the same questions will be
given is very remote.
ENROL IN REVIEW CENTERS –
DO SELECT THE BEST

Do ask the following questions:
 Who are the lecturers or who conducts the
review classes?
 Do they have good facilities?
 What about their track record, for the past
years, what was their percentage of
passing ?
ENROL IN REVIEW CENTERS –
DO SELECT THE BEST



Do ask the opinions of other students who
had experience with review centers
Do ask the opinions of your mentors or
professors
Do visit the office or the review center
premise
WHEN REVIEWING


Do study the Subjects seriously. Read and
understand the principle, concepts and solve
the problems given in the reference
materials.
Do concentrate in your review and avoid
distractions.
FILING OF APPLICATION FOR
EXAMINATION AT PRC



Do secure the form and all documentations
and requirements from PRC.
Do fill up the forms correctly and attach all
necessary documents.
Do pay the necessary fees at PRC
GETTING THE NOTICE OF
ADMISSION


Do secure the Notice of Admission after
payment of fees.
Do get the Instruction to Examinees and
other guidelines from PRC. This instruction
includes among others, the dress-code,
type/model of allowable Calculators, ballpens, pencil etc.
GETTING THE SCHOOL,
BUILDING AND ROOM
ASSIGNMENT

Do get your school/college/university building
and room assignment from PRC or if
available, from the Web-site of PRC. This is
available at PRC 2 or 3 days before the exam
scheduled date.
GETTING THE SCHOOL,
BUILDING AND ROOM
ASSIGNMENT

Do look for your school, building and room
assignment immediately, as it is oftentimes
difficult to locate the room, especially if you
are not familiar with the school.
GETTING THE SCHOOL,
BUILDING AND ROOM
ASSIGNMENT

Do get the scheduled date of each Subject,
so you will know which will be given on what
date
GETTING THE SCHOOL,
BUILDING AND ROOM
ASSIGNMENT

DO GET ENOUGH SLEEP, ONE WEEK OR
MORE TIME BEFORE YOU TAKE YOUR
EXAM. YOU SHOULD HAVE AT LEAST 7
HOURS OF SLEEP NIGHTLY.
ON THE DAY OF THE
EXAMINATION

Do wake up early, eat a light breakfast, and
be sure that you leave your house early
enough to reach your ROOM at least 30
minutes before 6:30 o’clock AM.
ON THE DAY OF THE
EXAMINATION


Do check for the things you are supposed to
bring in the exam room, such as Notice of
Admission, School ID, calculators, ball pens,
pencils etc.
Do report to your room assignment.
DURING THE ACTUAL TAKING OF
THE BOARD EXAM



Do listen to the instructions given by the
PROCTORS/WATCHERS.
Do follow the instructions carefully.
Do asks questions if you need further
clarifications, to the proctors/watchers.
DURING THE ACTUAL TAKING OF
THE BOARD EXAM


Do check the exam papers handed to you.
See if the Questionnaires, the Answer
Sheets, the ID sheets are complete.
Do read the instructions carefully, and
answer them diligently.
DURING THE ACTUAL TAKING OF
THE BOARD EXAM

Do answer all questions. Do submit all exam
papers – complete question sheets, answer
sheets and scratch papers.
DON’T’S IN TAKING THE BOARD
EXAMINATION


DO NOT TAKE THE BOARD EXAM
UNPREPARED
DO NOT TAKE FOR GRANTED, YOUR
REVIEW (whether it is self-review or thru
Review Centers).
DON’T’S IN TAKING THE BOARD
EXAMINATION

DO NOT MIX YOUR REVIEW STUDIES
WITH DISTRACTIONS SUCH AS:
1) Gimmicking
2) Texting, courting using cellphone
3) Quarreling with girl/boy friends
4) Going to social fuctions/ activities,
movies, Ballgames
5) Playing video games, browsing, chatting
in the Internet
DON’T’S IN TAKING THE BOARD
EXAMINATION

DO NOT RELY ON LEAKAGE SUPPOSEDLY
COMING FROM REVIEW CENTERS, WHICH
IS WHY SOME STUDENTS ENROL IN
REVIEW CENTERS.
FILING OF APPLICATION FOR
EXAMINATION AT PRC


DO NOT WRITE FALSE INFORMATION IN
THE APPLICATION FORMS
DO NOT ATTACH FRAUDULENT
DOCUMENTS
ON THE DAY OF THE
EXAMINATION




DO NOT FORGET THE DATE AND TIME
OF THE EXAM
DO NOT FORGET TO WAKE UP EARLY
DO NOT FORGET TO EAT A LIGHT
BREAKFAST
DO NOT FORGET TO BRING THE THINGS
YOU ARE SUPPOSED TO BRING WITH
YOU IN THE EXAM SITE
ON THE DAY OF THE
EXAMINATION





DO NOT FORGET YOUR BUILDING AND
ROOM ASSIGNMENT
DO NOT BE LATE. REMEMBER ONLY 30
MINUTES TARDINESS IS ALLOWED.
DO NOT DISOBEY INSTRUCTIONS
DO NOT CHEAT/COPY FROM OTHERS
DO NOT TAKE OUT EXAM QUESTIONS.
ON THE DAY OF THE
EXAMINATION

DO NOT FORGET TO PRAY
END OF PRESENTATION
THANK YOU
Engr. Joel B. Bajador
Member
Board of Electronics Engineering
July 9, 2011
SCHEDULE OF EXAMS: OCTOBER 29 & 30, 2011