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LESSON PLAN LECTURER
:
DEPARTMENT :
EN. MOHD. SYAKIRIN B. ISMAIL EN ZULKIFLI BIN KHAIRUDDIN PN SALHASMIDAH BTE SULEIMAN PN MARYIATI BTE MORSIN
SESSION : DIS 2011
ELECTRICAL ENGINEERING
PROGRAMME : DJK 1A
CODE & NAME OF COURSE : EE101 - MEASUREMENT PROGRAMME LEARNING OUTCOMES (PLO) : Upon completion of this programme, graduates will be able to: 1. 2.
Week (Scheduled On) Hours
Apply knowledge of mathematics, science and engineering fundamentals to well defined electrical and electronic engineering procedures and practices; Demonstrate practical skills which includes the ability to troubleshoot, repair and do maintenance work for electrical and electronics equipment with specialization in communications.
Topic(s) and Outcomes
CLO & LD
T&L Activities
Types of Assessment
P:2
Remarks
Pendaftaran Pelajar, Pendaftaran Kursus & MSK
1 2 (20.12.2011) & (23.12.2011)
Implement ed Date
1.0 MEASUREMENT AND ERROR 1.1 1.1. Unde Unders rsta tand nd mea measure sureme ment nt:: 1.1.1. Define the the measurement measurement 1.1.2. Illustrate Illustrate the measurement measurement process 1.1.3. Describe the following elements elements of measurement system. a. Prima Primary ry sens sensing ing elem elemen entt b. Varia Variable ble manip manipula ulatio tion n element c. Data Data pres presen enta tatio tion n eleme element nt
CLO1 LD1 LD2
Lecture Laboratory Question & answer Demostration
Practical 1
1.1.4.
Explain the terminology of a. b.
Scale Range
1.2. Understand error in measurement 1.2.1. Define the error in measurement 1.2.2. Compare the following type of errors a. Gross error Systematic error b. c. Random error d. Absolute error e. Relative error
3 (27.12.2011) & (30.12.2011) P:2
1.2.3 Determine absolute error in measurement 1.2.4 Determine relative error in measurement 1.2.5 Describe the following characteristics of measurement a. Accuracy b. Precision c. Resolution d. Significant figure 1.3. Understand the standards used in measurement 1.3.1. Describe the following level of standards a. International standards b. Primary standards
CLO1 LD1 LD2
Lecture Laboratory Question & answer Demostration
Quiz 1 Practical 1
c. d.
4 (03.01.2012) & (6.01.2012) P:2
2.0
Secondary standards Working standards
DC AND AC METERS 2.1 Understand basic principle of analog meter 2.1.1. Sketch construction of Permanent Magnet Moving Coil (PMMC) 2.1.2. Explain the principle operation of PMMC 2.1.3. Apply equation F = N.A.B.I to calculate deflection torque. 2.1.4. Draw damping curve in analog indicating instrument 2.1.5. Explain the following damping curve and their relationship to the moving coil needle: a. critical damping b. over damping c. under damping 2.1.6 Compare common damping system in indicating instrument: a. air friction damping b. liquid damping c. Eddy current damping.
CLO2 LD1 LD2
Lecture Laboratory Question & answer Demostration
Assignment 1 Practical 2
2.2
Understand D.C. voltmeter 2.2.1. Draw basic DC voltmeter circuit (single range DC voltmeter). 2.2.2. Derive equation for multiplier resistor value in single range voltmeter.
Lecture Laboratory Question & answer Demostration
2.2.3. Calculate multiplier resistor in single range voltmeter using equation in 2.2.2 2.2.4. Derive equation for multiplier resistor value in two range DC voltmeter. 2.2.5. Calculate multiplier resistances value in two range voltmeter using equation in 2.2.4 2.2.6. Accomplish voltage measurement in a simple circuit using two range DC voltmeter in 2.2.5
5 (10.01.2012) & (13.01.2012) P:2
CLO2 LD1 LD2
2.2.7. Describe loading effect in DC voltmeter 2.2.8. Investigate loading effect in voltage measurement by connecting DC voltmeter to difference load 6 (17.01.2012) & (20.01.2012)
2.3.
Understand DC ammeter 2.3.1 Draw basic DC ammeter circuit (single range DC
CLO2 LD1 LD2
Practical 2
P:2
single). 2.3.2 Derive equation for shunt resistor in single range DC ammeter. 2.3.3 Calculate shunt resistor in single range DC ammeter using equation in 2.3.2 2.3.4 Derive equation for shunt resistor in two range DC ammeter. 2.3.5 Calculate shunt resistor in two range DC ammeter using equation in 2.3.4 2.3.6 Design basic two range DC ammeter for current measurement. 2.4
Understand ohmmeter 2.4.1 Draw basic series type ohmmeter circuit. 2.4.2 Explain function of current limiting resistance (series resistance), zero adjust resistance, meter resistance and unknown resistance in series type ohmmeter. 2.4.3 Derive equation for shunt resistor in series type ohmmeter. 2.4.4 Apply equation in 2.4.3 to calculate limiting resistor in series type ohmmeter. 2.4.5 Draw basic shunt type ohmmeter circuit. 2.4.6 Explain function of shunt
Lecture Laboratory Question & answer Demostration
Practical 3
resistance, zero adjusts resistance, meter resistance and unknown resistance in shunt type ohmmeter. 2.4.7 Derive equation for limiting resistor in series type ohmmeter. 2.4.8 Apply equation in 2.4.7 to calculate shunt resistor in shunt type ohmmeter. 2.4.9 Design basic series and shunt type ohmmeter for resistance measurement. 2.4.10 Differentiate typical scale in series and shunt type Ohmmeter.
CUTI GANTIAN SEMPENA MAJLIS PENGISYTIHARAN POLITEKNIK IBRAHIM SULTAN (23.01.2012 – 27.01.2012) 7 (31.01.2012) & (3.02.2012) P:2
2.5
Understand analogue multimeter 2.5.1 Explain analogue multimeter consisting of ammeter, voltmeter and ohmmeter combination. 2.5.2 Identify ammeter, voltmeter and ohmmeter section analogue multimeter circuit diagram. 2.5.3 Differentiate the scale of ohm, volt and ampere in analogue multimeter. 2.5.4 Define sensitivity of meter. 2.5.5 Explain sensitivity of meter and
CLO2 LD1 LD2
Lecture Laboratory Question & answer
Quiz 2 Practical 3
Demostration
its significance. Describe analogue meter resistance. 2.5.7 State that analogue meter resistance = sensitivity x maximum reading of range 2.5.8 Relate analogue meter resistance to the sensitivity of meter. 2.5.9 Determine the steps to do the following measurements using multimeter: a. voltage b. current c. resistance 2.5.10 Explain multimeter safety precaution. 2.5.11 Calibrate the multimeter. 2.5.12 Use multimeter to measure voltage, current and resistance. 2.5.6
8 (10.02.2012) & P:2
2.6
Understand digital multimeters 2.6.1 Draw block diagram of a digital multimeter. 2.6.2 Explain function of each block of digital multimeter. 2.6.3 Differentiate between analog and digital multimeter
07.02.2012 lesson rescheduled on 08.02.2012 due to Thaipusam Day
2.6.4 Compare advantages and disadvantages of digital meters and analog meter. 2.6.5 Determine the steps to do the following measurements using digi tal multimeter: a. voltage b. current c. resistance 2.6.6 Explain digital multimeter safety precaution. 2.6.7 Use digital multimeter to measure voltage, current and resistance. 9 (14.02.2012) & (17.02.2012) P:2
3.0 OSCILLOSCOPE AND SIGNAL GENERATOR
3.1
Introduction to Oscilloscope 3.1.1 Define of Oscilloscopes . 3.1.2. Explain the functions of Oscilloscope. 3.1.3. Classify types of Oscilloscope (analog and digital). 3.1.4. Draw block diagram of an analog oscilloscope. 3.1.5. Draw block diagram of a digital oscilloscope. 3.1.6. Explain the basic functional block diagram of an analog and digital oscilloscope. 3.1.7. Compare advantages and disadvantages of digital Oscilloscope to that of analog Oscilloscope in terms of accuracy.
3.2 Understand the basic control functions of Oscilloscope 3.2.1 Draw and label the front panel of an oscilloscope. 3.2.2 Explain the functions of Display Controls. 3.2.3 Explain the functions of Vertical Controls. 3.2.4 Explain the functions of Horizontal Controls. 3.2.5 Explain the functions of Trigger Controls. 3.3
Understand the Oscilloscope Probes 3.3.1 D efine of Oscilloscope Probes. 3.3.2 Classify types of Oscilloscope
3.4 Understand the application of Oscilloscope 3.4.1 P repare procedure for calibrating Oscilloscope. 3.4.2 Construct connection between Signal Generator and Oscilloscope for signal measurement. 3.4.3 Use the Oscilloscope to measure voltage, frequency, time and phase angle in sinusoidal and non-sinusoidal waveform from signal generator. 3.4.4 Construct connection between simple circuits to Oscilloscope for waveform measurement. 3.4.5 Interpret the specification of analog Oscilloscope.
3.5
Understand to signal generator 3.5.1 D efine of signal generator. 3.5.2 C lassify types of signal generator. 3.5.3 E xplain Standard Signal Generators. 3.5.4 E xplain function generators 3.5.5 D raw and label the front panel of a signal generator.
CLO3 LD1 LD2
Lecture Laboratory Question & answer Demostration
Quiz 3 Practical 4
CLO3 LD1 LD2
Lecture Laboratory Question & answer Demostration
Practical 4
3.5.6
Describe the function of the on the panel of a signal
generator: a.Frequency Selection Group b.Sweep Group c. Amplitude Modulation Group d. DC Offset Group e.Function or Waveform group f. Output Group 3.5.7 Construct simple circuit and use signal generator as signal source to the circuit. 13 (20.03.2012) & (23.03.2012) P:2
4.0
DC BRIDGE 4.1 Understand the fundamental concept of Bridge circuit 4.1.1 D raw the basic schematic diagram of standard bridge circuit D 4.1.2 escribe the concept, based on the schematic diagram of standard bridge circuit. 4.1.3 E xplain bridges in null condition. 4.2 Understand the principle of DC Bridge. 4.2.1 S tate two types of DC Bridges 4.2.2 D raw Wheatstone bridge schematic diagram.
circuit for resistance measurement. Draw Kelvin bridge schematic diagram. Derive bridge balance equation for Kelvin Bridge. Calculate unknown resistance in bridge balance using equation in 4.2.7. Construct Kelvin Bridge circuit for resistance measurement.
CLO4 LD1 LD2
Lecture Laboratory Question & answer Demostration
Practical 5
1.0 5.1
POWER METERS Understand Power Meters 5.1.1 Define power meters.
Lecture 15 (03.04.2012) & (06.04.2012) P:2
16 (10.04.2012) & (13.04.2012) P:2
5.2 Understand the principles of analogue wattmeter 5.2.1 D raw symbol of analogue wattmeter 5.2.2 E xplain the basic principles of analogue wattmeter 5.2.3 E xplain wattmeter as consisting of voltage coil and current coil. 5.2.4 C onstruct wattmeter connection for power measurement.
5.3 Meter
CLO5 LD1 LD2
Understand the principles of KWH 5.3.1 E xplain basic principles of analogue KWH meter 5.3.2 D raw construction of KWH meter. 5.3.3 C onstruct KWH connection for electrical energy measurement.
5.4 Understand clamp meter in measuring high alternating current. 541
CLO5 LD1 LD2
Laboratory Question & answer Demostration
Quiz 4 Assignment 3 Practical 6
E
Lecture Laboratory Question & answer Demostration
Theory Test 2 Practical 6
xplain basic principles of analogue clamp meter 5.4.2 onstruct clamp meter connection for alternating current measurement.
