Pengajaran Dan Pembelajaran

SUGGESTED TEACHING AND TOOLS/EQUIPMENTS/MATERIAL
LEARNING ACTIVITIES

Teaching: 1. Rear axle assembly
2. Rear axle simulator for
1. Lecture : topic 5.1 – 5.5
teaching aids
xle. Learning : 3. Differential unit
4. LSD differential unit
n of 2. Practical: 5. SST for overhaul differential

a.Identity the safety precaution unit and axle
b.Folowing procedure service rear 6. Service manual

axle components
) c.Check rear axle assembly
nit d.Identity the safety precaution

e.Fluid inspection and replacement
f. Diagnose the faulty component.
e. g.Folowing procedure to overhaul

differential unit
t h.Adjustment of differential unit
. i. Use the special tools

Teaching: 1. Vehicle complete for testing on
1. Lecture : topic 6.1 - 6.2 the road

Learning : 2. Service manual
2. Practical:
A3) a.Identity the safety precaution

b.Folowing road test procedure
C4) c.Knowledge of road test

d.Analyse road test
e.Identity the requirement of vehicle

tester

utomotive Engineering Technology | Detailed Syllabus 46

DETAILED SYL
KAA 3123 PETROL

UNIT UNIT LEARNING OUTCOMES

1 Turbocharger After completing the unit, students
(C4,A3,P4) should be able to :

1.1 Introduction of turbocharger 1. Describe principle of force induct
1.2 Construction and operation and function of turbocharger. (C2
1.3 Type of turbocharger
1.4 Intercooler 2. Identify construction and function
1.5 Turbo accessories turbocharger main components.
1.6 Introduction to TSI (C1)
1.7 Checking of turbocharger
1.8 Testing turbocharger boost 3. Identify types of turbocharger and
describe the principle operation o
pressure WGT, VGT and VNT turbocharge
1.9 Checking of turbocharger (C4)

lubrication pressure 4. Explain turbo lag factor and solut
1.10 Replacement of turbocharger of the problems. (A3)

5. Identify types and function of
intercooler. (C1)

6. Explain construction and function
blow off valve and boost controlle
(C2)

7. Describe princple operation and
function of TSI. (C2)

8. Perform inspection on turbocharg
leakage, turbocharging boost
pressure and lubrication pressure
(P4)

9. Remove and install turbocharger
unit from engine. (P4)

10. Perform inspection on turbine
wheel, compressor wheel and

Certificate in Au

LLABUS
L ENGINE 2

SUGGESTED TEACHING AND TOOLS/EQUIPMENTS/MATERIAL
LEARNING ACTIVITIES
1. Turbocharger Engine
Teaching: 2. Special service tools (SST)

1. Lecture : topic 1.1 -1.6

Learning :
tion

2) 2. Practical:
n of

a. Fundamental of turbocharger

system
d b. On-vehicle inspection of

of turbocharger.
er. • Inspect air intake system

• Inspect exhaust system
tion • Check actuator operation.

• Check turbocharger pressure.

• Check lubrication pressure.

• Check compressor wheel
n of rotation.
er. c. Off-vehicle inspection of

turbocharger.

• Inspect axial play of turbine shaft

ger • Inspect radial play of turbine
shaft.

e. d. Remove and install turbocharger.
e. Turbocharger troubleshooting.

r f. Use the special tools.

utomotive Engineering Technology | Detailed Syllabus 47

UNIT UNIT LEARNING OUTCOMES

2 Supercharger impeller shaft. (P4)
(C4,A3,P4)
After completing the unit, students
2.1 Introduction of supercharger should be able to :
2.2 Construction and operation
2.3 Overhaul of supercharger 1. Identify types and function of
supercharger. (C4)

2. Identify construction and function
supercharger main components. (

3. Describe principle operation of
supercharger. (C1)

4. Justify function of supercharger
system components. (A3)

5. Perform overhaul on supercharge
according to repair manuals. (P4)

3 Emission control system After completing the unit, students
(C4,A3,P4) should be able to :

3.1 Exhaust gas analyze and 1. Describe the types of air pollu
contains. caused by motor vehicle. (C2)

3.2 Emission standard 2. Explain emission gas produce
3.3 Principle of production of by exhaust gas. (A3)

3. Differentiate types of emission
standard. (C4)

Certificate in Au

SUGGESTED TEACHING AND TOOLS/EQUIPMENTS/MATERIAL
LEARNING ACTIVITIES

Teaching: 1. Supercharger Engine
1. Lecture : topic 2.1 – 2.2 2. Special service tools (SST)
Learning :

of 2. Practical:
(C4)
a. Fundamental of supercharger
er system.

b. On-vehicle inspection of
supercharger.
• Check supercharger oil level
• Change supercharger oil if
necessary.
• Inspect magnetic clutch.
• Inspect air by-pass valve
(ABV).
• Inspect VSV
• Inspect ACV
• Check supercharger pressure.

c. Replacement of clutch stator
d. Dismantle and reassemble

supercharger
Teaching:

1. Exhaust gas analyser

ution 1. Lecture : topic 3.1 – 3.4
) Learning :
ed 2. Practical:

n

utomotive Engineering Technology | Detailed Syllabus 48

UNIT UNIT LEARNING OUTCOMES

exhaust gases 4. Identify construction and
3.4 Automotive mission control operation of emission devices
(C1)
system
3.5 Check functioning of emission 5. Perform inspection on emissio
control device for proper funct
control devices (C2)
3.6 Measurement of emission
6. Measure emission gas by usin
gases exhaust gas analyser. (P4)

4 Engine Enhancement After completing the unit, students
(C4) should be able to :

4.1 Variable valve timing 1. Determine the principle opera
4.2 Variable air intake system of variable valve timing. (C4)
4.3 Performance parts
2. Determine the principle opera
of variable air intake system. (

Certificate in Au

SUGGESTED TEACHING AND TOOLS/EQUIPMENTS/MATERIAL
LEARNING ACTIVITIES
s.
a. Fundamental of automotive
on emission.
tion.
b. Check emission control device.
ng • Positive crankcase ventilation
(PCV)
• Evaporative fuel emission
control (EVAP)
• Three-way catalytic converter
(TWC)
• Exhaust gas recirculation
(EGR)
• Throttle positioner (TP)
• Oxygen sensor (02)

c. Operate exhaust gas analyser to
analyse emission gas contains.

Teaching:

1. Lecture : topic 4.1 – 4.3 1. Engine c/w variable air intake
system

Learning :
ation

ation 2. Demonstration:
(C4)
1. Fundamental of variable valve
timing
• Cam changing (VTEC)
• Cam phasing (VVT-i)

2. Fundamental of variable air
intake system

utomotive Engineering Technology | Detailed Syllabus 49

UNIT UNIT LEARNING OUTCOMES

5 EFI Engine Diagnostic After completing the unit, students
(C4,A3,P4) should be able to :

5.1 Operate engine gas analyser 1. Determine exhaust gas anal
5.2 Operate diagnostic equipment in proper procedure. (C4)
5.3 Analyse the result of diagnostic
2. Execute diagnostic scan too
diagnose engine control sys
parameter. (P4)

3. Explain the diagnostic result.

Certificate in Au

SUGGESTED TEACHING AND TOOLS/EQUIPMENTS/MATERIAL
LEARNING ACTIVITIES
1. Exhaust gas analyser
Teaching: 2. Scan tool

1. Lecture : topic 5.1 – 5.3

lyser Learning :

ol to 2. Practical:
stem
1. Operate exhaust gas analyser to
(A3) measure emission gas contains.

2. Check engine control system using
diagnostic scan tool.

3. Record and explain the diagnostic
results.

utomotive Engineering Technology | Detailed Syllabus 50

DETAILED SYL
KAV 3012 AUTOMOTIVE A

UNIT UNIT LEARNING OUTCOMES

1 BASIC AIR CONDITIONING After completing the unit, students

THEORY should be able to;-

(C4)

1. Identify the components used for

1.1 Refrigeration and Cooling. automotive air conditioning. (C1)

1.2 Definition of Terms Relating to 2. Explain principle of air conditioni

Refrigeration. (C2)

1.3 Chlorofluorocarbons (CFC) 3. Describe function and operation

Control. the component. (C1)

1.4 Principle of Air Conditioning. 4. Classify defination of term relatin

1.5 Air Conditioner System and to refrigerant. (C4)

Operation. 5. Describe the role of ozone layer,

green house effect and ozone. (C

Certificate in Au

LLABUS TOOLS/EQUIPMENTS
AIR CONDITIONING

SUGGESTED LEARNING ACTIVITY

Teaching:
s

1. Lecture : Topic 1.1 – 1.14

r 2. Observe safe working practices.
)
ing. 3. Demonstration :

a. Determine principle of Air
of Conditioning.

ng Learning :
4. Discussion :

, Chlorofluorocarbons
C6)

(*) : Topic for discussion freely decide by
instructor.

utomotive Engineering Technology | Detailed Syllabus 51

UNIT UNIT LEARNING OUTCOMES

2 BASIC SYSTEM COMPONENTS After completing the unit, students
(C4) should be able to;-

2.1 Layout of system components 1. Identify layout air conditioning
2.2 Basic system components. component. (C1)

2.2.1 Compressor. 2. Identify the construction and the
2.2.2 Magnetic clutch. function of basic components for
2.2.3 Condenser. automotive air conditioning. (C1)
2.2.4 Receiver.
2.2.5 Expansion valve. 3. Explain type of basic electrical
2.2.6 Evaporator. component. (C2)
2.3 Basic electrical components
2.3.1 Blower motor. 4. Classify the layout of wiring diag
2.3.2 Fan. manual. (C4)
2.3.3 Amplifier.
2.3.4 Vacuum switching

valve (VSV).
2.3.5 Pressure switch.
2.3.6 Air conditioner relay.
2.3.7 Thermostat .

3 SERVICE AND REPAIR AIR After completing the unit, students

Certificate in Au

SUGGESTED LEARNING ACTIVITY TOOLS/EQUIPMENTS

Teaching:
s

1. Lecture : Topic 2.1 – 2.3.7
- Identify the safety precaution
- Explain the layout of system
components.
b. Identify basic

r systemcomponents.
) c. Define basic air-conditioning

electrical components.

gram 2. Demonstration :
d. Determine principle of Air
Conditioning.

Learning :

3. Observe safe working practices.

4. Discussion :
Chlorofluorocarbons

(*) : Topic for discussion freely decide by
instructor.

Teaching: 1. Vehicle with Air-conditioning

s
1. Lecture : Topic 3.1 – 3.4

utomotive Engineering Technology | Detailed Syllabus 52

UNIT UNIT LEARNING OUTCOMES

CONDITIONING SYSTEM should be able to;-
(C4,P5,A3)
1. Identify the components used f
3.1 Service tools. automotive air conditioning. (C1
3.2 Gas leak detector.
3.3 Servicing precaution. 2. Classify function and operation
3.4 Compressor oil. the component. (C4)
3.5 On-vehicle inspection.
3.6 Servicing. 3. Measure and test the
3.7 Overhaul Compressor. components. (P4)
3.8 Evacuating and Charging.
3.9 Inspecting the quantity of 4. Perform maintenance work, rep
and Install automotive air
refrigerant charged. conditioning system. (C2)
3.10 Performance test.
3.11 Trouble shooting. 5. Demonstrate troubleshoot of air
3.12 General use of recovery and conditioning system. (P5)

recycling machine. 6. Follow the procedure maintenan
(A3)

Certificate in Au

SUGGESTED LEARNING ACTIVITY TOOLS/EQUIPMENTS

for - Identify the safety precaution system
1) - Determine principle of Air 2. Recovery/Recycling Station
of 3. Refrigerant Dispensing
Conditioning.
pair Valves & Containers
2. Observe safe working practices. 4. Manifold Gauge Set
r a. When handling Refrigerant (R12) 5. System Service Valves
nce. precaution must be observed. 6. Vacuum Pump
b. When replacing parts on 7. Leak Detector
refrigerant line. 8. Flushing Kit
c. When tightening connecting parts. 9. Heater System Service
d. When handling Refrigerant
container. Tools
e. When using Leak Detector. 10. Other Equipments
11. Hand Tools
Learning : 12. Service Manual
13. Multi meter Digital

3. Demonstration :
a.Replacement of Magnetic Clutch.
b. Removal of Compressor.
c. Disassembly and assembly of
Magnetic Clutch.
d. Check clearance of Magnetic
Clutch
e. Overhaul compressor.
f. Check compressor component.
g. Install and test compressor for
leak.
h. Refill compressor oil.

i. Remove and service Evaporator
Unit.

utomotive Engineering Technology | Detailed Syllabus 53

UNIT UNIT LEARNING OUTCOMES

Certificate in Au

SUGGESTED LEARNING ACTIVITY TOOLS/EQUIPMENTS

a. Check and replace expansion
valve.

j. Check and service blower fan and
motor.

k. Precaution for Service
l. Service condenser, fin for blockage

or damage.
m. Evacuation and Refrigerant

Charging.
n. Installation of Manifold Gauge.
o. Evacuate air in Refrigeration

systems.
p. Diagnoses troubleshoot and repair.
q. Air Cond service using charge and

recovery machine (air Cond
station).

- Test for leak with Nitrogen
Gas/gas leak sensor

r. On Vehicle Inspection.
i.Check Drive Belt Tension.
ii.Check Amount of
Refrigerant.
iii.Using thermometer to measure
the heat/temperature.

s. Operate charge and recovery
machine.

4. Discussion :
Knowledge for air-cond service

(*) : Topic for discussion freely decide by
instructor.

utomotive Engineering Technology | Detailed Syllabus 54

UNIT UNIT LEARNING OUTCOMES

4 ELECTRONIC TEMPERATURE After completing the unit, students
CONTROL SYSTEM should be able to;-
(C4,P5,A3)
1. Identify the components used fo
4.1 Master control Panel. electronic automotive air
4.2 Automatic (Electronic) conditioning. (C1)

Temperature Control Parts. 2. Classify function and operation o
4.3 Diagnose and troubleshoot the components. (C4)

electrical system. 3. Perform maintenance work, repa
and install electronic temperatur
control system. (C2)

4. Demonstrate troubleshoot of air
conditioning system using scan
tools. (P5)

5. Follow the procedure maintenan
(A3)

Certificate in Au

SUGGESTED LEARNING ACTIVITY TOOLS/EQUIPMENTS

s Teaching: 1. Vehicle with Air-conditioning
system
or 1. Lecture : Topic 4.1 – 4.2
a. Familiarity with the electronic 2. Manifold Gauge Set
temperature control system. 3. Leak Detector
4. Flushing Kit
of b. Familiarize with the electronic 5. Heater System Service
components attach to the
Tools
air system. 6. Other Equipments
re 7. Hand Tools
8. Service Manual
2. Observe safe working practices. 9. Multi meter Digital

3. Demonstration :
a. Check and test the components.

nce. b. Practice troubleshoot of air
conditioning.

c. Perform electrical system
inspection.

d. Use scan tools.
Learning :

4. Discussion :
Electronic Temperature Control
System

(*) : Topic for discussion freely decide by
instructor

utomotive Engineering Technology | Detailed Syllabus 55

DETAILED SYL
KAA 3044 AUTOMOTIVE

UNIT UNIT LEARNING OUTCOMES

1 After completing the unit, students

DIESEL FUEL SYSTEM should be able to :

(C4,A3,P4)

1. Identify the basic diesel fuel syst

1.1 Characteristic of diesel fuel (C1)

1.2 Type and operation of fuel Feed 2. Explain the function and usage o

pump injector nozzle. (A3)

1.3 Priming pump 3. Explain the method of injector

1.4 Type and operation of Injector nozzle, fuel feed pump and fuel

nozzle injector pump. (A3)

1.5 Diesel fuel filter 4. Identify type of diesel fuel filter. (

1.6 Service and replace of fuel Feed

pump

1.7 Service and testing injector

nozzle

1.8 Injection Timing adjustment

2 COMBUSTION CHAMBERS After completing the unit, students
(C4) should be able to :

2.1 Classification of combustion 1. Identify the classfication of
chambers combustion chambers. (C4)

2.2 Advantage and disadvantage 2. Identify advantage and disadvan
2.3 Phase of combustion chamber combustion chamber. (C4)
2.4 Diesel knock
3. Determine diesel knock. (C4)

Certificate in Au

LLABUS
E DIESEL ENGINE

SUGGESTED LEARNING ACTIVITY EQUIPMENT

s Teaching: 1.Injector Nozzle
2.Injector testor
tem. 1. Lecture : topic 1.1 -1.5 3. Primary pump.
of 2. Demonstration: 4.Diesel fuel filter
5.Diesel engine with F.I.P inline
a. Identify diesel injector nozzle.
b. Check injector nozzle assembly

and primary pump.

Learning :

3. Practical:

(C4) a. Repair fixing time diesel fuel 1. Diesel Engine
s injector pump to engine.

b. Repair or replace diesel fuel
filter.

c. Check injection timing
adjustment.

d. Use special tools.
Teaching:

1. Lecture : topic 2.1 – 2.4

Learning :

ntage 2. Presentation:

a.Classification of combustion
chambers.

b.Explain advantage and
disadvantage of combustion

utomotive Engineering Technology | Detailed Syllabus 56

UNIT UNIT LEARNING OUTCOMES

3 PREHEATING SYSTEM After completing the unit, students
(C4,A3,P4) should be able to :

3.1 Identify types of preheating 1. Describe the operation of prehea
device. (C2)

3.2 Component and functions 2. Identify component, function and
3.3 Check and troubleshoot operation of preheating. (C4)

preheating system.

4 DIESEL FUEL INJECTION PUMP After completing the unit, students
(C4,A3,P4) should be able to :

4.1 Function and operation in-line 1. Identify the basic diesel fuel injec
fuel injection pump 2. pump. (C4)
3. Explain the function and usage o
4.2 Function and operation 4. diesel fuel injection pump. (A3)
distributor type Explain the method of fuel injecti
pump. (A3)
4.3 Function and operation varies Troubleshoot and clarify the
type governor operation of diesel fuel injection
pump. (P4)
4.4 Automatic Timer (for in-line
injection pump)

4.5 Over-injection magnet
4.6 Electrical Diesel Injection

Control (EDIC)
4.7 Overhaul diesel fuel injection

Pump

Certificate in Au

SUGGESTED LEARNING ACTIVITY EQUIPMENT

chamber
c. Basic diesel knock.

Teaching: 1. Heater plug /glow plug

s
1. Lecture : topic 3.1 – 3.2

ating. Learning : 1.F.I.P Inline
d 2.F.I.P distributor
2. Practical: 3.Diesel engine with inline pump
s 4.Diesel engine with distributor
ction a.Explain operation of preheating.
of b.Check and troubleshoot type pump

preheating system.
Teaching:

1. Lecture : topic 4.1 -4.6
2. Demonstration:

a. Identify diesel fuel injection
pumps.

Learning :

ion 3. Practical:

a. Check diesel fuel injection
pump, electrical injection control
assembly and diesel fuel
injection pump.

b. Describe of diesel fuel injection
assembly.

c. Use special tools.

utomotive Engineering Technology | Detailed Syllabus 57

UNIT UNIT LEARNING OUTCOMES

5 After completing the unit, students
should be able to :
FUEL INJECTION PUMP
CALIBRATE MACHINE 1. Explain the operation of calibrate
(C4,A3,P4) machine. (A3)

5.1 Introduction 2. Identify fuel injection and operati
5.2 Function and Operation of fuel injection calibrate machin
5.3 Static phasing of fuel injection (C4)

pump.
5.4 Operate of the fuel Injection

pump calibrate machine

6 ELECTRONIC DIESEL FUEL After completing the unit, students
INJECTION should be able to :
(C4,A3,P4)
1. Explain the basic operation and
6.1 Function and operation of terminology. (A3)
common rail fuel system
2. Explain basic principle of commo
6.2 Check Supply Pump rail system. (A3)
6.3 Check of electronic Injector
3. Identify common rail fuel system
measurements. (C4)

Certificate in Au

s SUGGESTED LEARNING ACTIVITY EQUIPMENT
e Teaching:
ion 1. Lecture : topic 5.1 – 5.3 1.F.I.P test bench / calibrate
ne. machine

s Learning :

on 2. Practical
m
a.Perform fuel injection pump
calibrate machine.

b.Check and calibrate diesel fuel
injection pump using calibrate
machine.

c. Use special tools and calibrate
machine.

Teaching: 1.Diesel engine with Common
Rail system.
1. Lecture : topic 6.1
2. Demonstration:

a.Explain the common rail fuel
system.

b.Differentiate between supply
pump and electronic injector.

Learning :

3. Practical:

a.Measurements of electronic
injector.

b.Use special tools.

utomotive Engineering Technology | Detailed Syllabus 58

DETAILED ASSESSMENT
CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY

July 2012
(Third Edition)

Printed 2016
Bahagian Kemahiran Dan Teknikal MARA

Level 20 & 21, MARA Headquarters,
21, Jalan MARA,

50609 Kuala Lumpur.

CONTENTS

1 Assessment Weightage Of Course Page
2 Detailed Assessment: Semester 1
1
CVA10012 Vehicle Technology 1
CVV10012 Engine Fundamental 4
CVV10023 Workshop Practice 6
CVA10023 Automotive Electrical 8
CKV10042 Engineering Drawing 10
12
3 Detailed Assessment: Semester 2
15
CVA21033 Vehicle Technology 2 17
CVA20043 Automotive Control System and
Diagnosis 19
CVA20054 Petrol Engine 1 21
CKV20022 Engineering Science 1
25
4 Detailed Assessment: Semester 3 27
29
CVA31064 Vehicle Technology 3 31
CVA31073 Petrol Engine 2
CVV30032 Automotive Air-Conditioning
CVA30083 Automotive Diesel Engine

ASSESSMENT WEIGHTAGE OF COURSES

CLUSTER : AUTOMOTIVE
PROGRAMME : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY

Course Code/ CVA10012 CVV10012 CVV10023 CVA10023 CKV10042
Semester
T A T A T A T A TA
1 T1(T) 10% T1(T) 10% T1(T) 10% T1(T) 10% A1(P) 30%
T2(F) 20% A1 20% T2(F) 20% A1 20% A1 20% T2(F) 20% A1 20% A2(T) 20%
A2 20% A2 20% A2 20% A2 20% A3(P) 30%
A3 30% A3 30% A3 20% A3 30% A4(T) 20%
A4 30%
0% 100%
30% 70% 30% 70% 10% 90% 30% 70%

Course Code/ CVA21033 CVA20043 CVA20054 CKV20022
Semester
T A T A T AT A
2 T1(T) 10% T1(T) 10% T1(T) 10% 0%
T2(F) 20% A1 20% T2(F) 20% A1 20% T2(F) 20% A1 20% T1(T) 20%
A2 20% A2 20%
A3 30% A3 30% A2 20% T2(T) 20%

A3 30% T3(Q) 10%

T4(A) 10%

T5(F) 40%

30% 70% 30% 70% 30% 70% 100%

Course Code/ CVA31064 CVA31073 CVV30032 CVA30083
Semester
T A T A T A T A
3 T1(P) 20% A1 30% T1(T) 10% A1 20% T1(T) 10% A1 20% T1(T) 10% A1 20%
A2 30% T2(F) 20% A2 20% T2(F) 20% A2 20% T2(F) 20% A2 20%
A3(F) 20% A3 30% A3 30% A3 30%
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 120%80%30%70% 30% 70% 30% 70%

Keys : AX ─ Practical (labotary work, drawing, assemble,
TX ─ Listening/Speaking/Reading/Simulation serving, maintenance, computer based assignment,
presentation skill, survey work, field study and oral)
TX(T) ─ Theory Test
TX(N) ─ Numerical Theory Test AX(P) ─ Practical Project (Project, Product, Fabrication,
TX(Q) ─ Quiz Drawing project, computer based project & simuation)
TX(P) ─ Theory Assignment with presentation
TX(A) ─ Theory Assignment & Report Writing AX(T) ─ Practical Test
TX(F) ─ Final Theory or Final Presentation AX(F) ─ Final Practical

AKRONIM WAJARAN

PENTAKSIRAN TEORI Cognitive Domain (Anderson) Affective Domain (Bloom)
TX: Listening/Speaking/Reading/Simulation C1 : Remembering A1 : Receiving
TX(T): Theory Test C2 : Understanding A2 : Responding
TX(N): Numerical Theory Test C3 : Applying A3 : Valuing
TX(Q): Quiz C4 : Analysing A4 : Organization
TX(P): Theory Assignment with presentation C5 : Evaluating A5 : Internalization
TX(A): Theory Assignment & Report Writing C6 : Creating/Designing
TX(F): Final Theory or Final Presentation
Psychomotor Domain (Simpson)
PENTAKSIRAN PRAKTIKAL P1 : Perception
P2 : Set
Ax : Practical (labotary work, drawing, assemble, P3 : Guided Response
serving, maintenance, computer based assignment, P4 : Mechanism
presentation skill, survey work and field study) P5 : Complex Overt Response
P6 : Adaptation
Ax(P) : Practical Project (Project, Product, Fabrication, P7 : Origination
Drawing project, computer based project & simuation)

Ax (T): Practical Test
Ax (F): Final Practical
Ax(O): Oral ( Kluster Elektrik sahaja)
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 2

THIRD EDITION (PRINTED 2016)

Semester 1

Certificate In Automotive Engineering Technology 3

ASSESSMENT INSTRUMENT FORMAT
CVA10012 VEHICLE TECHNOLOGY 1

COURSEWORK FINAL
T2(F)
NO SUBJECT T1(T) A1 A2 A3 (20%)
1 Type of Assessments 10% 20% 20% 30% Final (Theory)
2 Type Of Instruments
Theory Test • Practical & • Practical & • Practical & Objective
Document KI-04 Document KI-04 Document KI-04 Individual
(KI-1A, KI-1B) (KI-1C) (KI-4C)
40 Questions
Objective & Subjective Skill Work Skill Work Skill Work (Answer all)

3 Grouping/Individual THIRD EDITION (PRINTED 2016)IndividualGroupingGroupingGrouping40 Marks
4 Number Of Question/TaskCertificate In Automotive Engineering Technology 4
Part A 1 Task 1 Task 1 Task 1 hour
5 Total Mark 20 Questions Objective Unit 1 – 5
6 Duration Of Assesment Practical Practical Practical
7 Contextual Scope (Answer all) 90% 90% 90%
Part B
KI Assessment KI Assessment KI Assessment
3 Question Subjective 10% 10% 10%
(Answer 2)
7 hours 20 hours 7 hours
Part A Unit 3 Unit 2 & 4 Unit 5
40%

Part B
60%

1 hour

Unit 1 – 3

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVA10012 VEHICLE TECHNOLOGY 1

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL ASSESSMENT FINAL KI
(CLO) C2 COURSEWORK T2(F)
T1(T) 20%
10% A1 A2 A3
20% 20% 30% X
X X
Describe the construction and function of chassis, 1.Chassis X X
CLO1 clutch, manual transmission, tire and wheel based 2.Bearing And Seal X X
3.Clutch X
on passenger vehicle. 4.Manual Transmission
5.Tire And Wheel
Explain the wear and tear of bearing and seal on 1.Chassis X X
CLO2 manual transmission and wheel according to visual 2.Bearing And Seal C2 X
3.Clutch
inspection. 4.Manual Transmission X
5.Tire And Wheel P4 X
2.Bearing And Seal
3.Clutch X
THIRD EDITION (PRINTED 2016)CLO3Perform service on clutch system and overhaul4.Manual Transmission
Certificate In Automotive Engineering Technology 5manual transmission of passenger vehicle.
5.Tire And Wheel
Perform tire and wheel maintenance by using tire P4 X
CLO4 changing machine and wheel balancing machine 2.Bearing And Seal
3.Clutch
according to specification. 4.Manual Transmission
5.Tire And Wheel
X

CLO5 Demonstrate work as a team according to task X X
given. A3

X

X

Keys: Ax(T) – Practical Test
T1(T) – Theory Test Ax(P) – Practical Project
Tx(N) – Numerical Theory Test Ax – Practical
Tx(Q) – Quiz Ax(F) – Final Practical
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CVV10012 ENGINE FUNDAMENTAL

COURSEWORK FINAL
T2(F)
NO SUBJECT T1(T) A1 A2 A3 (20%)
1 Type of Assessments 10% 20% 20% 30% Final (Theory)
2 Type Of Instruments
Theory Test • Practical & • Practical & • Practical & Objective
Document KI-04 Document KI-04 Document KI-04 Individual
(KI-2A, KI-2C) (KI-3A) (KI-3B, KI-4C)
40 Questions
Objective & Subjective Skill Work Skill Work Skill Work (Answer all)

3 Grouping/Individual Individual Grouping Grouping Grouping 40 Marks

Part A 2 Tasks 2 Tasks 1 Task 1 hour
THIRD EDITION (PRINTED 2016) Unit 1 – 8
Certificate In Automotive Engineering Technology 620 Questions ObjectivePracticalPractical Practical
90% 90% 90%
4 Number Of Question/Task (Answer all)
Part B KI Assessment KI Assessment KI Assessment
10% 10% 10%
3 Question Subjective
3 hours / task 4 hours / task 16 hours
(Answer 2) Unit 4 – 5 Unit 6 – 7
Unit 8
5 Total Mark Part A
40%

Part B
60%

6 Duration Of Assesment 1 hour

7 Contextual Scope Unit 1 – 4

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVV10012 ENGINE FUNDAMENTAL

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL T1(T) ASSESSMENT FINAL KI
(CLO) C2 10% COURSE WORK T2(F) X
20%
CLO1 Describe basic principle operation of petrol 1.Basic Engine Princple C2 X A1 A2 A3
engine. P2 20% 20% 30% X
2.Introduction To Internal combustion Engine P2 X X
A3 X X
3.Construction Of petrol And Diesel Engine. X X X
4.Intake And Exhaust System X X
5.Engine Fuel System (Carburation System ) X X
CLO2 Explain the function of the automobile engine 6.Lubrication System X X
components. 7.Engine Cooling System X
8.Cylinder Head Assembly X X
1.Basic Engine Princple X X
X X
THIRD EDITION (PRINTED 2016)2.Introduction To Internal combustion Engine
Certificate In Automotive Engineering Technology 7CLO3Identify and perform maintenance service on X
fuel, lubrication and cooling system Identify and 3.Construction Of petrol And Diesel Engine. X
show maintenance service on fuel, lubrication 4.Intake And Exhaust System
and cooling system according to specification. 5.Engine Fuel System (Carburation System ) X
6.Lubrication System X
CLO4 Explain verbally and carry out top overhaul 7.Engine Cooling System X
automobile petrol engine using standard tools. 4.Intake And Exhaust System
5.Engine Fuel System (Carburation System ) X
CLO5 Demonstrate work as a team according to the X
top overhaul task given. 6.Lubrication System
7.Engine Cooling System X
8.Cylinder Head Assembly
4.Intake And Exhaust System
5.Engine Fuel System (Carburation System )
6.Lubrication System
7.Engine Cooling System
8.Cylinder Head Assembly
4.Intake And Exhaust System
5.Engine Fuel System (Carburation System )
6.Lubrication System
7.Engine Cooling System
8.Cylinder Head Assembly

Keys: Ax(T) – Practical Test
T1(T) – Theory Test Ax(P) – Practical Project
Tx(N) – Numerical Theory Test Ax – Practical
Tx(Q) – Quiz Ax(F) – Final Practical
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CVV10023 WORKSHOP PRACTICE

NO SUBJECT T1(T) A1 COURSEWORK A3 A4
1 Type of Assessments 10% 20% 20% 30%
2 Type Of Instruments A2
Theory Test • Practical & 20% • Practical & • Practical Project &
Document KI-04 Document KI-04 Document KI-04
Objective & Subjective (KI-1D) • Practical & (KI-4A) (KI-4A, KI-4C)
Document KI-04
(KI-4C)

Skill Work Skill Work Skill Work Skill Work

3 Grouping/Individual Individual Individual Individual Individual Individual

Part A Refer to Job Sheet
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 820 Questions Objective Practical
90%
4 Number Of Question/Task (Answer all) Refer to Job Sheet Refer to Job Sheet Refer to Job Sheet
Part B KI Assessment
10%
3 Question Subjective
15 hours
(Answer 2) Unit 2 – 3

5 Total Mark Part A Practical Practical Practical
40% 90% 90% 90%

Part B KI Assessment KI Assessment KI Assessment
60% 10% 10% 10%

6 Duration Of Assesment 1 hour 20 hours 5 hours 14 hours

7 Contextual Scope Unit 1 – 4 Unit 2, 4 & 5 Unit 7 Unit 8

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVV10023 WORKSHOP PRACTICE

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL ASSESSMENT KI
(CLO) C3 COURSE WORK
T1(T) A1 A2 A3 A4
10% 20% 20% 20% 30%

Apply precisely used of common hand tools and 1.Workshop Safety X
CLO1 workshop equipments for purpose of maintenance 2.Marking Out and Measurement Tool X
3.Hand tool X
and repairing. 4.Thread And Fasteners X
5.Machine Tools
Explain correctly the common hand tools and 6.Fit,Limit And Tolerance X XX
CLO2 workshop equipments according to standard 7.Soldering And Brazing X XX
8.Welding Practices P2
operation procedure. 1.Workshop Safety X
THIRD EDITION (PRINTED 2016)2.Marking Out and Measurement Tool
Certificate In Automotive Engineering Technology 9 3.Hand tool X
4.Thread And Fasteners X
5.Machine Tools
CLO3 Show fitting process to produce products by using 6.Fit,Limit And Tolerance X X
a correct tools based on task given. 7.Soldering And Brazing X X
8.Welding Practices P2
1.Workshop Safety X X
2.Marking Out and Measurement Tool
3.Hand tool X X
4.Thread And Fasteners X
5.Machine Tools
6.Fit,Limit And Tolerance
7.Soldering And Brazing
8.Welding Practices

Keys: Ax(T) – Practical Test
Ax(P) – Practical Project
T1(T) – Theory Test Ax – Practical
Tx(N) – Numerical Theory Test Ax(F) – Final Practical
Tx(Q) – Quiz
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CVA10023 AUTOMOTIVE ELECTRICAL

NO SUBJECT T1(T) COURSEWORK A2 A3 FINAL
1 Type of Assessments 10% 20% 30% T2(F)
A1 (20%)
Theory Test 20% • Practical & Final (Theory)
Document KI-04
• Practical & • Practical & (KI-4A) Objective
Individual
Document KI-04 Document KI-04
40 Questions
(KI-1A) (KI-2B) (Answer all)

2 Type Of Instruments Objective & Subjective Skill Work Skill Work Skill Work 40 Marks

3 Grouping/Individual Individual Grouping Grouping Grouping 1 hour
Unit 1 – 5
Part A 1 Task 1 Task 1 Task
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 1020 Questions ObjectivePracticalPracticalPractical
90% 90% 90%
4 Number Of Question/Task (Answer all)
Part B KI Assessment KI Assessment KI Assessment
10% 10% 10%
3 Question Subjective
8 hours 20 hours 14 hours
(Answer 2) Unit 2 – 3 Unit 2 & 4 Unit 2 & 5

5 Total Mark Part A
40%

Part B
60%

6 Duration Of Assesment 1 hour

7 Contextual Scope Unit 1 – 3

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVA10023 AUTOMOTIVE ELECTRICAL

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL T1(T) ASSESSMENT FINAL KI
(CLO) C2 10% COURSEWORK T2(F) X
20%
Explain basic principle of electrical, electronics and 1.Basic Electrical X A1 A2 A3
magnetism in automotive application 2.Electric circuit and Test Instrument X 20% 20% 30% X
3.Electrical Components X
CLO1 4.Engine Electrical XXX X
5.Body Electrical 1 X X
CLO2 Describe precisely construction and function of 1.Basic Electrical C2 X X
automobile electrical system and component. 2.Electric circuit and Test Instrument P5 X X
3.Electrical Components A3 X X
4.Engine Electrical X
5.Body Electrical 1 XXX X
2.Electric circuit and Test Instrument X X
3.Electrical Components
4.Engine Electrical X
5.Body Electrical 1 X
2.Electric circuit and Test Instrument
3.Electrical Components
4.Engine Electrical
5.Body Electrical 1
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 11
Carry out maintenance service and troubleshoot of
CLO3 electrical and electronic system based on

specification.

CLO4 Demonstrate work as a team according to task
given.

Keys: Ax(T) – Practical Test
T1(T) – Theory Test Ax(P) – Practical Project
Tx(N) – Numerical Theory Test Ax – Practical
Tx(Q) – Quiz Ax(F) – Final Practical
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CKV10042 ENGINEERING DRAWING

COURSEWORK

NO. SUBJECT A1(P) A2(T) A3(P) A4(T)
(30%) (20%) (30%) (20%)
1 Type of Assessments Practical Project
Practical Test • Practical Project • Practical Test
Drawing • KI Assessment • KI Assessment
Individual
(KI-1C and KI-4A) (KI-4A)

2 Type of Instruments Drawing • Drawing • Drawing
3 Grouping/Individual • Document KI-04 • Document KI-04
4 Number of Question / Task
Individual Individual Individual

THIRD EDITION (PRINTED 2016)5 Total MarkMinimum 3 Tasks1 TaskMinimum 3 Tasks1 Task
Certificate In Automotive Engineering Technology 12100%100%
6 Duration of Assessment 4 hours 4 hours Assignment Assignment
90% 90%

KI Assessment KI Assessment
10% 10%

4 hours 4 hours

7 Contextual Scope Unit 1 – 7 Unit 1 – 7 Unit 6 – 11 Unit 6 – 11
(Refer MQA–P07)

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : Certificate in Automotive Engineering Technology

Code & Name Of Course : CKV10042 ENGINEERING DRAWING

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & ASSESSMENT FINAL
LEVEL COURSEWORK
1.0 Introduction To Engineering Drawing
2.0 Scales C2 , P3 A1(P) A2(T) A3(P) A4(T) KI
3.0 Line Work 30% 20% 30% 20% x
4.0 Lettering P4
5.0 Geometrical Construction and Application P5, A4 x x
6.0 Dimensioning x
7.0 Orthographic Projection x x
8.0 Pictorial Projection x
Practice engineering drawings and blue print according 9.0 Sectioning x x
to BS and ASME standards and conventions 10.0 Working Drawing x
CLO1 x x
11.0 Development
x

xxx

xxx

CLO2 Produce Isometric and sectioning drawing according to xx
BS and ASME standards
xx

Perform assembly, detail and sectional drawings of xx
CLO3 various engineering products and systems according to
xx
BS and ASME standards

Keys:

TX : Listening/Speaking/Reading/Simulation
TX(T) : Theory Test
TX(N) : Numerical Theory Test
TX(Q) : Quiz
TX(P) : Theory Assignment with presentation
TX(A) : Theory Assignment & Report Writing
TX(F) : Final Theory or Final Presentation
THIRD EDITION (PRINTED 2016)AX: Practical (labotary work, drawing, assemble,Cognitive Domain (Anderson)Psychomotor Domain (Simpson)Affective Domain (Bloom)
Certificate In Automotive Engineering Technology 13 P1 : Perception A1 : Receiving
AX(P) serving, maintenance, computer based assignment, C1 : Remembering
AX(T) P2 : Set A2 : Responding
AX(F) presentation skill, survey work, field study and oral) C2 : Understanding P3 : Guided Response A3 : Valuing
P4 : Mechanism A4 : Organization
: Practical Project (Project, Product, Fabrication, C3 : Applying P5 : Complex Overt Response A5 : Internalization
P6 : Adaptation
Drawing project, computer based project & simuation) C4 : Analysing
P7 : Origination
: Practical Test C5 : Evaluating

: Final Practical C6 : Creating/Designing

THIRD EDITION (PRINTED 2016)

Semester 2

Certificate In Automotive Engineering Technology 14

ASSESSMENT INSTRUMENT FORMAT
CVA21033 VEHICLE TECHNOLOGY 2

COURSEWORK FINAL
T2(F)
NO SUBJECT T1(T) A1 A2 A3 (20%)
1 Type of Assessments 10% 20% 20% 30%
2 Type Of Instruments Final (Theory)
Theory Test Practical Practical • Practical
• KI Assessment Objective & Subjective
Objective & Subjective Skill Work Skill Work
(KI-1D, KI-2A, KI-2B,
KI-4C)

Skill Work

3 Grouping/Individual Individual Individual Individual Grouping Individual

Part A 1 Task 1 Task 3 Tasks Part A
THIRD EDITION (PRINTED 2016)20 Questions Objective
Certificate In Automotive Engineering Technology 1520 Questions ObjectivePracticalPracticalPractical
100% 100% 90% (Answer all)
4 Number Of Question/Task (Answer all) 8 hours 8 hours Part B
Part B Unit 1 Unit 2 KI Assessment
10% 3 Question Structure
3 Question Subjective (Answer 2)
10 hours / task
(Answer 2) Unit 3 – 5 Part A
20 Marks
5 Total Mark Part A
40% Part B
30 Marks
Part B
60% 2 hours

6 Duration Of Assesment 1 hour Unit 1 – 5

7 Contextual Scope Unit 1 – 3

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVA21033 VEHICLE TECHNOLOGY 2

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL T1(T) ASSESSMENT FINAL KI
(CLO) C2 10% COURSEWORK T2(F) X
P4 20%
Describe the construction and function of 1.Suspension System P5 X A1 A2 A3
CLO1 suspension, steering, brake, wheel alignment and 2.Steering System A3 X 20% 20% 30% X
3.Brake System X X
manual transaxle based on passenger vehicle. 4.Wheel Alignment X X
5. Manual Transmission X X
Perform the service maintenance for suspension, 1.Suspension System X X
CLO2 steering, brake, wheel alignment and manual 2.Steering System X
3.Brake System X
transaxle system according to procedure. 4.Wheel Alignment
5. Manual Transmission X
Carry out troubleshoot on suspension, steering, 1.Suspension System X
CLO3 brake, wheel alignment and manual transaxle 2.Steering System X
3.Brake System X
system according to workshop manual. 4.Wheel Alignment X
5. Manual Transmission X
Applying work as a team according to brake system 3.Brake System X
CLO4 services, wheel alighment procedure and manual 4.Wheel Alignment X
5. Manual Transmission
transmission services.
THIRD EDITION (PRINTED 2016)
Keys:Certificate In Automotive Engineering Technology 16 Ax(T) – Practical Test
T1(T) – Theory Test Ax(P) – Practical Project
Tx(N) – Numerical Theory Test Ax – Practical
Tx(Q) – Quiz Ax(F) – Final Practical
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CVA20043 AUTOMOTIVE CONTROL SYSTEM AND DIAGNOSIS

COURSEWORK FINAL
T2(F)
NO SUBJECT T1(T) A1 A2 A3 (20%)
1 Type of Assessments 10% 20% 20% 30%
2 Type Of Instruments Final (Theory)
Theory Test Practical • Practical • Practical
• KI Assessment • KI Assessment Objective & Subjective
Objective & Subjective
(KI-1A, KI-2B) (KI-2C, KI-4C)

Skill Work Skill Work Skill Work

3 Grouping/Individual Individual Individual Grouping Grouping Individual

Part A 1 Task 1 Task 2 Tasks Part A
THIRD EDITION (PRINTED 2016)20 Questions Objective
Certificate In Automotive Engineering Technology 1720 Questions ObjectivePracticalPracticalPractical
100% 90% 90% (Answer all)
4 Number Of Question/Task (Answer all) 6 hours Part B
Part B Unit 1 KI Assessment KI Assessment
10% 10% 3 Question Structure
3 Question Subjective (Answer 2)
6 hours 8 hours / task
(Answer 2) Unit 1 Unit 2 – 3 Part A
20 Marks
5 Total Mark Part A
40% Part B
30 Marks
Part B
60% 2 hours

6 Duration Of Assesment 1 hour Unit 1 – 3

7 Contextual Scope Unit 1 – 2

MQA-P07

COURSE LEARNING OUTCOMES AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVA20043 AUTOMOTIVE CONTROL SYSTEM & DIAGNOSIS

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL T1(T) ASSESSMENT FINAL KI
(CLO) C2 10% COURSEWORK T2(F) X
20%
CLO1 Explain the construction and function of body 1. Body Electrical 2 X A1 A2 A3
CLO2 electrical, airbag system and engine 2. Air Bags System X 20% 20% 30% X
CLO3 management system in automotive control 3. Engine Management System X
CLO 4 systems. 1. Body Electrical 2 X XX X
2. Air Bags System C2 X X X
Describe the principle operation of body 3. Engine Management System X X
electrical, airbag system and engine 1. Body Electrical 2 X
management system. 2. Air Bags System X
3. Engine Management System P4 X
Demonstrate and carry out maintenance service 1. Body Electrical 2 X
and troubleshoot of body electrical, airbag 2. Air Bags System
system and engine management system on 3. Engine Management System
passenger vehicle.

Demonstrate work as a team according to task
given.
THIRD EDITION (PRINTED 2016)A3
Certificate In Automotive Engineering Technology 18
Keys:

Tx (T) – Theory Test Ax (T) – Practical Test
Tx (N) – Numerical Theory Test Ax (P) – Practical project
Tx (Q) – Quiz Ax – Practical
Tx (A) – Theory Assignment Ax (F) – Final (Practical)
Tx (F) – Final (Theory)

ASSESSMENT INSTRUMENT FORMAT
CVA20054 PETROL ENGINE 1

COURSEWORK FINAL
T2(F)
NO SUBJECT T1(T) A1 A2 A3 (20%)
1 Type of Assessments 10% 20% 20% 30%
2 Type Of Instruments Final (Theory)
Theory Test • Practical • Practical • Practical
• KI Assessment • KI Assessment • KI Assessment Objective & Subjective

(KI-1B) (KI-2A, KI-2C) (KI-1C, KI-4C)

Objective & Subjective Skill Work Skill Work Skill Work

3 Grouping/Individual Individual Individual Grouping Individual Individual

Part A 1 Task 1 Task 2 Tasks Part A
THIRD EDITION (PRINTED 2016)20 Questions Objective
Certificate In Automotive Engineering Technology 1920 Questions ObjectivePracticalPracticalPractical
90% 90% 90% (Answer all)
4 Number Of Question/Task (Answer all) Part B
Part B KI Assessment KI Assessment KI Assessment
10% 10% 10% 3 Question Structure
3 Question Subjective (Answer 2)
4 hours 24 hours 10 hours / task
(Answer 2) Unit 1 Unit 2 Unit 3 – 4 Part A
20 Marks
5 Total Mark Part A
40% Part B
30 Marks
Part B
60% 2 hours

6 Duration Of Assesment 1 hour Unit 1 – 4

7 Contextual Scope Unit 1 – 2

MQA-P07

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : CERTIFICATE IN AUTOMOTIVE ENGINEERING TECHNOLOGY
Code & Name Of Course : CVA20054 PETROL ENGINE 1

NO COURSE LEARNING OUTCOMES UNITS DOMAIN & LEVEL ASSESSMENT FINAL KI
(CLO) C2 COURSEWORK T2(F)
C2 T1(T) 20%
10% A1 A2 A3
20% 20% 30% X
X X
Describe the principles operation of electronic fuel 1.Fuel System ( EFI ) X X
CLO1 injection system and alternative fuel system in 2.Engine General Overhaul X
3.Engine Parameter Test X
automobile petrol engine. 4.Alternative Fuel X
1.Fuel System ( EFI )
CLO2 Explain precisely construction and function of 2.Engine General Overhaul
electronic fuel injection system components. 3.Engine Parameter Test
4.Alternative Fuel
Explain verbally and carry out maintenance service 1.Fuel System ( EFI ) X
CLO3 and general overhaul electronic fuel injection 2.Engine General Overhaul P5 X
3.Engine Parameter Test
engine. X
4.Alternative Fuel P5 X

2.Engine General Overhaul A3 X X
THIRD EDITION (PRINTED 2016)CLO4Perform installation of NGV system on passenger
Certificate In Automotive Engineering Technology 20vehicle.

CLO5 Demonstrate work as a team according to the
engine general overhaul.

Keys: Ax(T) – Practical Test
T1(T) – Theory Test Ax(P) – Practical Project
Tx(N) – Numerical Theory Test Ax – Practical
Tx(Q) – Quiz Ax(F) – Final Practical
Tx(A) – Theory Assignment
Tx(F) – Final Theory

ASSESSMENT INSTRUMENT FORMAT
CKV20022 ENGINEERING SCIENCE 1

COURSEWORK FINAL
T5(F)
NO. SUBJECT T1(T) T2(T) T3(Q) T4(A) (40%)
1 Type of Assessments (20%) (20%) (10%) (10%)
Final Theory
Theory Test Theory Test Quiz Theory Assignment

2 Type of Instruments Objective & Objective & Subjective Report Objective &
3 Grouping/Individual Subjective Subjective Individual Individual Subjective

Individual Individual 1 Quiz / unit Minimum 2 Individual
assignment
Part A Part A 100% Part A
15 minutes Assignment 20 questions Objective
20 questions Objective 20 questions Objective Unit 1 – 6 100%
(Answer all)
4 Number of Question/Task (Answer all) (Answer all) Part B
Part B Part B
5 questions
(Unit 6 is compulsory

and Answer any 2
questions)

• Part A : 40%
• Part B : 60%
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 21
3 questions Subjective 3 questions Subjective

(Answer all) (Answer all)

5 Total Mark Part A Part A 2 weeks / assign. 2 hours
6 Duration of Assessment 40 % 40 %
Part B Part B
60 % 60 %

1 hour 1 hour

7 Contextual Scope Unit 1 – 2 Unit 3 – 5 Unit 1 – 6 Unit 1 – 6
(Refer MQA-P07)

COURSE LEARNING OUTCOMES (CLO) AND ASSESSMENT MATRIX

Name Of Programme : Certificate in Automotive Engineering Technology
Code & Name Of Course : CKV20022 Engineering Science 1

ASSESSMENT

COURSE LEARNING OUTCOMES UNITS DOMAIN & COURSEWORK FINAL
NO 1.0 Physical Quantities And Basic Units LEVEL
T1(T) T2(T) T3(Q) T4(A) T5(F)
(CLO) 20% 20% 10% 10% 40%

x xxx

CLO1 Apply the international system of unit in C3
engineering discipline.

2.0 Statics x xxx
C3
CLO2 Use the concept of force equilibrium to solve on
force problems act upon a rigid body.

3.0 Friction xxxx
C3
THIRD EDITION (PRINTED 2016)CLO3Solve the problem of friction on two horizontal
Certificate In Automotive Engineering Technology 22surface contacts.

4.0 Work xxxx
xxxx
CLO4 Apply the concept of work, energy and power in 5.0 Power C3

basic application. 6.0 Energy xxx

Keys: Cognitive Domain (Anderson) Psychomotor Domain (Simpson) Affective Domain (Bloom)

TX : Listening/Speaking/Reading/Simulation AX : Practical (labotary work, drawing, assemble, C1 : Remembering P1 : Perception A1 : Receiving
TX(T) : Theory Test P2 : Set A2 : Responding
TX(N) : Numerical Theory Test serving, maintenance, computer based assignment, C2 : Understanding A3 : Valuing
P3 : Guided Response A4 : Organization
TX(Q) : Quiz presentation skill, survey work, field study and oral) C3 : Applying A5 : Internalization
P4 : Mechanism
TX(P) : Theory Assignment with presentation AX(P) : Practical Project (Project, Product, Fabrication, C4 : Analysing
TX(A) : Theory Assignment & Report Writing P5 : Complex Overt Response
TX(F) : Final Theory or Final Presentation Drawing project, computer based project & simuationC)5 : Evaluating P6 : Adaptation
P7 : Origination
AX(T) : Practical Test C6 : Creating/Designing

AX(F) : Final Practical

COURSE LEARNING OUTCOMES (CLO) AND TEST BLUEPRINT MATRIX

Name Of Programme : Certificate in Automotive Engineering Technology

Code & Name Of Course : CKV20022 Engineering Science 1

FINAL THEORY - 40%

NO COURSE LEARNING OUTCOMES UNITS Remembering Understanding Applying Analysing Evaluating Creating/Designing NO OF
(CLO)
QUES.
CLO1 Apply the international system of unit in Objective Subjective Objective Subjective Objective Subjective Objective Subjective Objective Subjective Objective Subjective
engineering discipline.
EMD EMDEMD EMD E MD EMDEMD E M D E M D EMD EMD EMD

1.0 Physical Quantities And Basic Units 2 1 1 4

2.0 Statics 21 3 22 10
211 8
CLO2 Use the concept of force equilibrium to
solve on force problems act upon a rigid
body.

3.0 Friction 11 2

CLO3 Solve the problem of friction on two
horizontal surface contacts.
THIRD EDITION (PRINTED 2016)
Certificate In Automotive Engineering Technology 234.0 Work 11 211 6
1 211 6
CLO4 Apply the concept of work, energy and power 5.0 Power 1 1 112 6
1
in basic application. 6.0 Energy 40

NO. OF QUESTIONS 253000640000000965

Keys: C1 – Remembering E – Easy Level Of Construct (C1:C2:C3:C4:C5:C6) = 10 : 10 : 20 : 0 : 0 : 0
TX : Listening/Speaking/Reading/Simulation C2 – Understanding M – Medium Level Of Difficulty (E : M : D) = 4: 4 : 2
C3 – Applying D – Difficult
TX(T) : Theory Test C4 - Analysing
TX(N) : Numerical Theory Test C5 - Evaluating
TX(Q) : Quiz C6 - Creating/Designing
TX(P) : Theory Assignment with presentation
TX(A) : Theory Assignment & Report Writing
TX(F) : Final Theory or Final Presentation