Annex Iv-b Lab Requirements For Professional Courses For Ece

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Documents ANNEX III-LABORATORY REQUIREMENTS I - ECE LABORATORY CIRCUITS I

Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity

1. Familiarization with Electrical Measuring Instruments a. characteristics of an analog ammeter b. characteristics of an analog voltmeter c. Measurement of current and voltage using analog ammeter and voltmeter

Circuits Trainer with power supply Analog DC Ammeter (100 mA dc) Analog DC Voltmeter (20V dc) Multimeter Watt meter

1 set 1 pc 1 pc. 1 pc. 1 pc.

5 sets 5 pcs 5 pcs 5 pcs 5 pcs

2. Analysis of resistive networks a. characteristics of seriesparallel circuits b. characteristics and principle of basic electric circuit laws c. series, parallel, and seriesparallel circuits.

Circuits Trainer with power supply Analog DC Ammeter (100 mA dc) Analog DC Voltmeter (20V dc) Multimeter

1 set 1 pc. 1 pc. 1 pc.

5 sets 5 pcs 5 pcs 5 pcs

3. Resistance Bridge Circuit a. Operating principles of wheatstone bridge circuits b. Resistance bridge circuits under balanced condition with and without strain. c. Resistance bridge circuits under unbalanced condition with strain.

Circuits Trainer with power supply Analog DC Ammeter (zero centered) Analog DC Voltmeter (zero centered) Multimeter Potentiometer Strain Transducer

1 set 1 pc 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 sets 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

4. Mesh Analysis and Nodal Analysis Computer Unit Circuit simulation software a. effects of mesh analysis on multiple active linear sources in a network b. linear response at any point in a mesh circuit c. effects of nodal analysis on multiple active linear source in a network d. linear response at any point in a nodal circuit

1 set 1 pc

5 sets 5 pcs

5. The Superposition Theorem and Linearity

1 set 1 pc.

5 sets 5 pcs

Circuits Trainer with power supply Analog DC Ammeter (100 mA dc)

1

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5 pcs

Circuits Trainer with power supply 6. Thevenin’s and Norton’s Ammeter (100 mA dc) Theorems Multimeter a. principles of Thevenin’s Theorem b. principles of Norton’s Theorem c. Relationship between Thevenin’s and Norton’s Theorems

1 set 1 pc. 1 pc.

5 sets 5 pcs 5 pcs

7. Feedback and Natural Responses of RC Circuits with DC Excitation a. energy-storing devices (like capacitors) in DC circuits. b. charging and discharging response of a capacitor with DC excitation. c. natural and forced responses of a DC-excited RC circuit. d. complete responses of a dynamic RC circuit.

Circuits Trainer with power supply Function Generator Oscilloscope Multimeter

1 set 1 unit 1 unit 1 pc.

5sets 5 units 5 units 5 pcs.

8. Forced and Natural Responses of RL Circuits with DC Excitation a. effect of energy-storing devices (like Inductors) in DC circuits. b. charging and discharging responses of an inductor with DC excitation c. natural and forced responses of a DC-excited RL circuit. d. natural, forced, and complete responses of a dynamic RL circuit.

Circuits Trainer with power supply Ammeter (100 mA dc) Multimeter

1 set 1 pc. 1 pc.

5 sets 5 pcs. 5 pcs.

1 unit 1 unit

5 units 5 units

a. multiple active linear sources in a network b. linear response at any point in a linear circuit having several independent linear sources c. principle of linearity

Multimeter

9. Forced and Natural Responses of PC Circuit simulator RLC Circuits with DC Excitation a. charging and discharging responses of an inductor with a capacitor on DC excitation. b. natural and forced responses of a DC-excited RL circuit. c. natural, forced, and complete responses of a dynamic RC circuit.

2

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Documents The remaining meetings should be reserved for the presentation of project and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

CIRCUITS II

Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity

Variable Regulated Power Supply Unit (0 – 20V DC and 0 – 5V AC) Multimeter (V.O.M.) DC Ammeter (0 – 100 mA) AC Ammeter ((0 – 100 mA) 2-Channel Oscilloscope)

1 unit

5 units

1 pc. 1 pc. 1 pc. 1 pc.

5 pcs. 5 pcs. 5 pcs. 5 pcs.

2. Resistive, Inductive, and Capacitive Circuits with a Sinusoidal Excitation

Function Generator Multimeter (V.O.M.) AC Ammeter (0 – 100 mA) 2-Channel Oscilloscope Resistive Load (100 ohms) Resistive Load (470 ohms) Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

3. Impedance of a Series RLC Circuit

Function Generator Multimeter AC Ammeter (0 – 100 mA) Resistive Load (100 ohms) Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry) Practical Inductor ((100 – 200 mH)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

4. Impedance and Admittance of a Parallel RLC Circuit

Function Generator Multimeter AC Ammeter (0 – 100 mA) Resistive Load (100 ohms) Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

5. Computer-Aided Software AC Circuit Analysis Simulation for Network Theorems a. Superposition Theorem using computer-aided software AC circuit analysis simulation

PC with Computer-Aided Software AC Circuit Analysis Function Generator Multimeter AC Ammeter (0 – 100 mA) Resistive Load (1000 ohms)

1 unit 1 unit 1 pc. 1 pc. 1 pc.

5 units 5 units 5 pcs. 5 pcs. 5 pcs.

1. RMS Value of an A.C. Sinusoidal Waveform

3

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Documents Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry) Inductive Load (150 milliHenry)

1 pc. 1 pc. 1 pc.

5 pcs. 5 pcs. 5 pcs

6. Power in AC Circuits.

Function Generator Multimeter AC Ammeter (0 – 100 mA) Wattmeter Resistive Load (100 ohms) Capacitive Load (100 nanoFarad) Inductive Load (100 milliHenry)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

7. Balanced Thee-phase Systems a. balanced wye 3-phase system b. balanced delta 3-phase system c. Measurement of 3-phase power using the twowattmeter method.

Test Bed Purely Resistive Impedance (3,000 ohms) Multimeter AC Ammeter (0 – 3 A) Wattmeter Balanced 3-Phase Source (220 VRMS at 60 Hz)

1 set 3 pcs. 1 pc. 1 pc. 1 pc.

5 sets 3 pcs. 5 pcs. 5 pcs. 5 pcs.

8. Series Resonance

Function Generator Multimeter AC Ammeter (0 – 100 mA) Resistive Load (1000 ohms) Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

9. Parallel Resonance

Function Generator Multimeter AC Ammeter (0 – 100 mA) Resistive Load (1000 ohms) Resistive Load (100 ohms) Capacitive Load (2.2 microFarad) Inductive Load (100 milliHenry)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

10. Two-Port Network Parameters

Variable Regulated Power Supply Unit (0 – 20V DC and 0 – 5V AC) Multimeter (V.O.M.) AC Ammeter (0 – 100 mA) Resistor (1000 ohms) Resistor (470 ohms) Resistor (680 ohms) Resistor (2,000 ohms)

1 unit 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 units 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

b. Thevenin’s and Norton’s Theorems using computeraided software AC circuit analysis simulation

The remaining meetings should be reserved for the presentation of project and completion of other course requirements such as practical, oral, or written examinations, where applicable.

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Documents * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

FEEDBACK AND CONTROL SYSTEMS LABORATORY

Exercises

Required Equipment

Required Quantity*

Minimum Required quantity

1. Control system software Familiarization. Linear Constant Coefficient Differential Equations

• Computer Workstation • Control System Software

1 set

5 sets

2. Continuous-Time Signal representation. Continuous Time System representation, modeling, generation, retrieval, and interconnection

• Computer Workstation • Control System Software

1 set

5 sets

3. Time response of first order systems.

• Computer Workstation • Control System Software

1 set

5 sets

4. Step response of Second order systems and systems of higher order.

• Computer Workstation • Control System Software

1 set

5 sets

5. Stability and Frequency Response

• Computer Workstation • Control System Software

1 set

5 sets

6. Steady-State Analysis error and System types

• Computer Workstation • Control System Software

1 set

5 sets

7. Root Locus Analysis and Design of Continuous-Time Systems

• Computer Workstation • Control System Software

1 set

5 sets

8. ON-OFF, PI, PD, PID, Lead and Lag Compensators for Continuous-Time Systems

• Computer Workstation • Control System Software

1 set

5 sets

The remaining meetings should be allotted for the presentation of a project relating to Feedback and Controls, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

5

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Documents SIGNALS, SPECTRA, AND SIGNAL PROCESSING

Exercise

Required Equipment

Required Quantity*

Minimum Required quantity

1. Familiarization with Signal Processing Software • various Signal Processing Software desktop tools • manipulations on vectors, matrices, and arrays • Solve systems of linear equations using Signal Processing Software

• Computer Workstation • Signal Processing Software

1 set

5 sets

2. Introduction to Analog Signals • Analog signal manipulation • 3-dimensional (3D) plotting in Signal Processing Software

• Computer Workstation • Signal Processing Software

1 set

5 sets

3. Basic Operations and Non-Recursive Filter Response

• Computer Workstation • Signal Processing Software

1 set

5 sets

4. Familiarization with Infinite Impulse Response (IIR) and Pole-Zero Response Filters

• Computer Workstation • Signal Processing Software

1 set

5 sets

5. Programming in Signal Processing Software

• Computer Workstation • Signal Processing Software

1 set

5 sets

6. Graphical User Interface in Signal Processing Software.

• Computer Workstation • Signal Processing Software

1 set

5 sets

Computer Workstation Signal Processing Software

1 set

5 sets

• • • •

discrete-time signal manipulation impulse response using convolution non-recursive filters pole-zero response of a filter.

7. Project – Filter Design Implementation

• •

6

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Documents • Computer Workstation • DSP processor with software

8. Familiarization with Real-Time DSP

1 set 1 set

5 sets 5 sets

The remaining meetings should be allotted for the presentation of a project relating to Signal Processing, and completion of other course requirements such as practical, oral, or written examinations, when applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

PRINCIPLES OF COMMUNICATIONS LABORATORY

Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity

1. Communications Circuits and Service Considerations a. Pads and Attenuators b. Passive Filters c. Lissajous Figures

• • • • • • • • • • •

DC Source Multimeter Practical Electronics Trainer Connecting Wires Breadboard Capacitors, 1 nF Carbon resistors, 10 kΩ Oscilloscope Function Generator Function Generator Probes Oscilloscope Probes

1 pc. 1 pc. 1 pc. 1 set 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs.

2. Communications Circuits Computer Simulations a. Passive Low-pass Filter b. Active Low-pass Filter c. Bandpass Crystal Filter d. Bandpass Ceramic Filter e. Gain Control and AGC

• •

Tuned Circuits and Filters Module Personal Computer

1 pc. 1 set.

5 pcs 5 set

3. Amplitude Modulation a. Familiarization b. Amplitude Modulation c. Reception of AM signal

• • • • •

AM Generator Module AM Receiver Module (AM2961B) Power Supply, ±15V dc regulated Two-channel Oscilloscope Oscilloscope Probes

1 set 1 set 1 pc. 1 pc. 1 pc.

5 sets 5 sets 5 pcs. 5 pcs. 5 pcs.

7

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Documents 4. Automatic Gain Control a. Understand the purpose of AGC b. Automatic Gain Control

•

5. Double Sideband and Single Sideband Systems a. Double Sideband Systems b. Single Sideband Transmission and Reception

AM Generator Module with AGC function AM Receiver Module Power Supply, ±15V dc regulated Two-channel Oscilloscope Oscilloscope Probes Multimeter

1 set 1 set 1 pc. 1 pc. 1 pc. 1 pc.

5 sets 5 sets 5 pcs. 5 pcs. 5 pcs. 5 pcs.

•

• • • • •

AM Generator Module AM Receiver Module Power Supply, ±15V dc regulated Two-channel Oscilloscope Oscilloscope Probes Multimeter

1 set 1 set 1 pc 1 pc 1 pc. 1 pc 1 pc

5 sets 5 sets 5 pcs 5 pcs 5 pcs. 5 pcs 5 pcs

6. Frequency Modulation a. Frequency Modulation Circuits b. Basic FM Reception c. Stereo System using FDM

• • • • • •

FM Generator Module FM Receiver Module Power Supply, ±15V dc regulated Two-channel Oscilloscope Oscilloscope Probes Multimeter

1 set 1 set 1 pc. 1 pc 1 pc. 1 pc

5 sets 5 sets 5 pcs. 5 pcs 5 pcs. 5 pcs.

7. Amplitude Modulation Computer Simulations

• •

Amplitude Modulation Module Personal Computer (PC) with Software for Simulation of AM

1 pc

5 pcs

1 pc.

5 pcs

Frequency Modulation Module Personal Computer (PC) with Software for Simulation of AM

1 pc

5 pcs

1 pc

5 pcs

8. Frequency Modulation Computer Simulations

• • • • •

• •

The remaining meetings should be allotted for the presentation of a project relating to Principles of Communications, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

8

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Documents DIGITAL COMMUNICATIONS LABORATORY

Exercises

Required Quantity per group

Required Equipment

Minimum Required quantity

1. Introduction to Digital Communications a. Introduction to Digital Communications b. PCM Encoding

PCM and Link Analysis Training Module Personal Computer

1 set

5 sets

1 pc.

5 pcs.

2. Noise Analysis on Digital Communication System

PCM and Link Analysis Training Module Personal Computer

1 set 1 pc.

5 sets 5 pcs.

3. Sampling Theory and Analog to Digital Conversion a. Sampling Theory b. Analog to Digital Conversion

Digital Data Formatting Board Module Personal Computer

1 set 1 pc.

5 sets 5 pcs.

4. Digital Data Formatting

Digital Data Formatting Board Module Personal Computer

1 set 1 pc.

5 sets 5 pcs

5. Amplitude Shift Keying

ASK Board Module Personal Computer

1 set 1 pc.

5 sets 5 pcs

6. Frequency Shift Keying

FSK Board Module Personal Computer

1 set 1 pc.

5 sets 5 pcs.

7. Phase Shift Keying and Quadrature Phase Shift Keying

PSK Board Module Personal Computer

1 set 1 pc.

5 sets 5 pcs.

8. Error Detection and Correction

PCM and Link Analysis Module Personal Computer

1 set 1 pc. .

5 sets 5 pcs.

The remaining meetings should be allotted for the presentation of a project relating to Digital Communications, and completion of other course requirements such as practical, oral, or written

9

Training

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Documents examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

TRANSMISSION MEDIA AND ANTENNA SYSTEM

Exercises

Required Equipment

1. Wave Propagation in a Transmission Line Demonstrating the Effects of Losses, Attenuation and Standing Waves

•

Required Quantity per group

Minimum Required quantity

•

Transmission Line Demonstrator unit Function Generator 600R impedance terminator links

1 pc. 1 pc 1 pc 1 pc

5 pcs. 5 pcs. 5 pcs. 5 pcs.

2. Properties of Half Wavelength Lines with Variable Terminations and some Transmission Line Applications

• • • • • • • • •

Transmission Line Demonstrator Function Generator 600R terminator Links 10k terminator 1k8 terminator 50R terminator 110µF terminator Oscilloscope

1 pc. 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc

5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs. 5 pcs

3. Software Simulation and Hardware Modelling of a Dipole Antenna

• •

Antenna Trainer Personal Computer

1 pc. 1 pc.

5 pcs 5 pcs

4. Antenna Arrays

• •

Antenna Trainer Personal Computer

1 pc. 1 pc.

5 pcs. 5 pcs.

5. Monopole and Microwave • Antenna •

Antenna Trainer Personal Computer

1 pc 1 pc.

5 pcs. 5 pcs.

6. Introduction to Waveguides

•

Microwave Trainer

1 pc

5 pcs

7. Microwave Link Investigations using a Horn Antenna

•

Microwave Trainer

1 pc

5 pcs

8. Optical Fiber Demonstrations, Attenuation Measurements and Applications

•

Fiber Optics Trainer

1 pc.

5 pcs

The remaining meetings should be allotted for the Presentation of a Design project relating to

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Documents Transmission Lines, Antennas, and Wave Propagation, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

NUMERICAL METHODS

Exercise

Required Equipment

Required Quantity per group

Minimum Required quantity

1. Error Analysis. Taylor’s Series Expansion MacLaurin’s Series Expansion

PC with Software for mathematical computations and programming

1 set

5 sets

2. Roots of Equations. Graphical Method. Bracketing methods: Half-interval and False Position

PC with Software for mathematical computations and programming

1 set

5 sets

3. Newton’s Method

PC with Software for mathematical computations and programming

1 set

5 sets

4. Polynomial equations Muller’s method Bairstow’s method

PC with Software for mathematical computations and programming

1 set

5 sets

5. Solution to Systems of Linear Equations

PC with Software for mathematical computations and programming

1 set

5 sets

6. Solution to Systems of Non-linear Equations

PC with Software for mathematical computations and programming

1 set

5 sets

7. Interpolation

PC with Software for mathematical computations and programming

1 set

5 sets

8. Numerical Integration

PC with Software for mathematical computations and programming

1 set

5 sets

9. Ordinary Differential Equations

PC with Software for mathematical computations and programming

1 set

5 sets

Divided Difference

The remaining meetings should be allotted to the completion of other course requirements

11

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Documents such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

ELECTRONIC DEVICES AND CIRCUITS

Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity

1. Diode Characteristics

DC Power Supply Analog Multimeter Digital Multimeter (DMM) Breadboard Oscilloscope Desktop Computer

1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

2. The Diode Limiter

Function Generator Semiconductor Devices Circuit Board with Power Supply Oscilloscope Digital Multimeter (DMM) Desktop Computer

1 pc. 1 pc 1 pc. 1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

3. The Diode Clamper

Function Generator Semiconductor Devices Circuit Board with Power Supply Oscilloscope Digital Multimeter (DMM) Desktop Computer

1 pc. 1 pc.

5 pcs. 5 pcs

1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs

Digital Multimeter (DMM) Function Generator Oscilloscope Semiconductor Devices Circuit Board with Power Supply Desktop Computer

1 pc. 1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs 5 pcs

1 pc.

5 pcs

Digital Multimeter Semiconductor Devices circuit Board with Power Supply Function Generator Digital Oscilloscope Desktop Computer

1 pc. 1 pc.

5 pcs 5 pcs

1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs

Digital Multimeter (DMM) Breadboard

1 pc. 1 pc.

5 pcs 5 pcs

4. Rectifiers and Filters

5. The Voltage Doubler

6. Zener Diode and Voltage Regulation

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Documents Semiconductor Devices Circuit board with Power Supply DC Supply Desktop computer

1 pc.

5 pcs

1 pc. 1 pc.

5 pcs 5 pcs

7. BJT Characteristics and Biasing

Digital Multimeter (DMM) Semiconductor Devices Circuit board with Power Supply Desktop computer

1 pc. 1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs 5 pcs

8. Small-signal Amplifier a. Common-Base b. Common-Emitter c. Common-Collector

Digital Multimeter (DMM) Transistor Amplifier Circuit board with Power Supply Function Generator Oscilloscope

1 pc. 1 pc.

5 pcs 5 pcs

1 pc. 1 unit

5 pcs

9. JFET Fundamentals

Digital Multimeter (DMM) FET Fundamentals Circuit board with Power Supply Function Generator Oscilloscope

1 pc. 1 pc. 1 pc. 1 pc 1 pc

5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

10. JFET Amplifier

Digital Multimeter (DMM) FET Fundamentals Circuit board with Power Supply Function Generator Oscilloscope

1 pc. 1 pc. 1 pc 1 pc

5 pcs 5 pcs 5 pcs 5 pcs

The remaining meetings should be allotted for the presentation of a project related to Electronics, and completion of other course requirements such as practical, oral, or written examinations, where applicable * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

ELECTRONIC CIRCUIT ANALYSIS AND DESIGN

Exercise 1. BJT Frequency Response

Required Equipment Digital Multimeter (DMM) Transistor Power Amplifiers Ckt. board Function Generator

13

Required Quantity per group 1 pc. 1 pc. 1 pc.

Minimum Required quantity 5 pcs 5 pcs 5 pcs

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Documents Oscilloscope 2. JFET Frequency Response Digital Multimeter (DMM) Transistor Power Amplifiers Ckt. board Function Generator Oscilloscope

1 pc

5 pcs

1 pc. 1 pc. 1 pc. 1 pc

5 pcs 5 pcs 5 pcs 5 pcs

3. Cascaded Amplifier a. Direct Coupled b. RC Coupled c. Transformer Coupled

Digital Multimeter (DMM) Transistor Amplifier Circuit board Function Generator Oscilloscope

1 pc. 1 pc. 1 pc. 1 pc

5 pcs 5 pcs 5 pcs 5 pcs

4. Power Amplifier a. Single-ended b. Push-pull

Digital Multimeter (DMM) Transistor Power Amplifier Circuits Ckt. board Function Generator Oscilloscope

1 pc. 1 pc. 1 pc. 1 pc 1 pc

5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

5. Differential Amplifier

Digital Multimeter Function Generator Digital Oscilloscope Operational Amplifier Circuit Board

1 pc. 1 pc. 1 set 1 pc.

5 pcs 5 pcs 5 sets 5 pcs

6. Inverting and Non-inverting Digital Multimeter Operational Amplifiers Function Generator Digital Oscilloscope Operational Amplifier Circuit Board

1 pc. 1 pc. 1 set 1 pc. 1 pc.

5 pcs 5 pcs 5 sets 5 pcs 5 pcs

7. Operational Amplifier Applications

Digital Multimeter Function Generator Digital Oscilloscope Operational Amplifier Circuit Board

1 pc. 1 pc. 1 set 1 pc. 1 pc.

5 pcs 5 pcs 5 sets 5 pcs 5 pcs

1. Feedback Amplifier

Digital Multimeter (DMM) Transistor Feedback Circuits Ckt. board Function Generator Oscilloscope

1 pc. 1 pc. 1 pc. 1 pc. 1 pc.

5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

2. Square Wave Oscillators

Digital Multimeter DC Power Supply Digital Oscilloscope Breadboard

1 pc. 1 pc. 1 set 1 pc.

5 pcs 5 pcs 5 sets 5 pcs

3. Familiarization with Digital Circuits

DC Power Supply VOM Digital Oscilloscope Digital Circuit Training Module

1 pc 1 pc 1 pc 1 set

5 pcs 5 pcs 5 pcs 5 sets

The remaining meetings should

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Documents be allotted for the presentation of a project related to Electronics, and completion of other course requirements such as practical, oral, or written examinations, where applicable * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

INDUSTRIAL ELECTRONICS

Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity

1. Filters

Filter Experimental Module Oscilloscope Multimeter DC Supply Function Generator

1 set 1 set 1 pc 1 pc 1 pc

5 sets 5 sets 5 pcs 5 pcs 5 pcs

2. Voltage Multiplier

Filter Experimental Module Oscilloscope Multimeter DC Supply Function Generator

1 set 1 set 1 pc 1 pc 1 pc

5 sets 5 sets 5 pcs 5 pcs 5 pcs

3. Voltage Regulator

Filter Experimental Module Oscilloscope Multimeter DC Supply Function Generator

1 set 1 set 1 pc 1 pc 1 pc

5 sets 5 sets 5 pcs 5 pcs 5 pcs

4. DC Characteristics of Thyristors and other Switching Devices

Multimeter Oscilloscope Signal Generator Regulated, variable DC power supply SCRs TRIACs UJTs Capacitors Resistors Potentiometers Breadboard SPST Switches Lamp DC Motor

1 pc. 1 pc. 1 set 1 pc. 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 1 pc

5 pcs 5 pcs 5 sets 5 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 5 pcs

5. Thyristors and Phase Control Circuits

Multimeter Oscilloscope Signal Generator

1 pc. 1 pc. 1 set

5 pcs 5 pcs 5 sets

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Documents Regulated, variable DC power supply SCRs TRIACs UJTs Capacitors Resistors Potentiometers Breadboard SPST Switches Lamp DC Motor

1 pc. 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 2 pcs 1 pc

5 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 10 pcs 5 pcs

Oscilloscope Function Generator Multimeter LED Laser Diode Photodiode Photodetector Power Supply

1 pc 1 pc 1 pc 2 pcs 2 pcs 2 pcs 2 pcs 1 pcs

5 pcs 5 pcs 5 pcs 10 pcs 10 pcs 10 pcs 10 pcs

Multimeter Oscilloscope Signal Generator Regulated, variable DC supply Transducer and Transmitter Training Module

1 pc. 1 pc. 1 unit 1 pc. 1 set

5 units 5 pcs. 5 pcs. 5 pcs 1 set

9. Programmable controllers – PC Workstation PLC Basics PLC Training Module with simulation software for PLC

1 unit 1 set

5 units 5 sets

10. PLC timers, counters, and applications

1 unit 1 set

5 units 5 sets

7. Optoelectronic Devices

8. Transducers and Transmitters

PC Workstation PLC Training Module with simulation software for PLC

5 pcs

The remaining meetings should be allotted for the presentation of a project related to Electronics, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

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Documents LOGIC CIRCUITS AND SWITCHING THEORY Exercises

Required Equipment

Required Quantity per group

Minimum Required quantity 5 pcs 5 pcs 5 pcs 5 pcs

DC Power Supply VOM Digital Oscilloscope Solderless Breadboard

1 pc 1 pc 1 pc 1 pc

2. De Morgan’s Theorem DC Power Supply and Universal Logic Gates Solderless Breadboard

1 pc 1 pc

3. The Binary Adder Circuits

DC Power Supply Solderless Breadboard

1 pc 1 pc

5 pcs 5 pcs

4. Synthesizing Combinational Circuits

DC Power Supply Solderless Breadboard

1 pc 1 pc

5 pcs 5 pcs

5. Octal Keypad and Seven DC Power Supply Segment Display Solderless Breadboard

1 pc 1 pc

5 pcs 5 pcs

6. The RS and JK Flip Flops

DC Power Supply Solderless Breadboard Digital Oscilloscope Function Generator

1 pc 1 pc 1 pc 1 pc

5 pcs 5 pcs 5 pcs 5 pcs

7. Binary Counters

DC Power Supply Solderless Breadboard Digital Oscilloscope Function Generator

1 pc 1 pc 1 pc 1 pc

5 pcs 5 pcs 5 pcs 5 pcs

8. The 74194 Universal Shift Register

DC Power Supply Solderless Breadboard Function Generator

1 pc 1 pc 1 pc

5 pcs 5 pcs 5 pcs

1. The Truth Table of Basic Logic Gates

5 pcs 5 pcs

The remaining meetings should be allotted for the presentation of a project relating to Logic Circuits and Switching Theory, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

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Documents MICROPROCESSOR SYSTEMS

Exercises

Required Equipment

Minimum Required quantity

Required Quantity per group

1. Familiarization with Microprocessor System

Microprocessor Trainer

1 pc

5 pcs

2. LED Matrix Character Generator

Microprocessor Trainer I/O Board I/O Board

1 pc 1 pc 1 pc

5 pcs 5 pcs 5 pcs

3. Data Transmission and Reception through I/O Boards

Microprocessor Trainer I/O Board

1 pc 1 pc

5 pcs 5 pcs

4. Stepper Motor

Microprocessor Trainer I/O Board Stepper Motor

1 pc 1 pc 1 pc

5 pcs 5 pcs 5 pcs

The remaining meetings should be allotted for the presentation of a project related to Microprocessor Systems, and completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

ENERGY CONVERSION

Exercises 1. Familiarization with Photovoltaic/Solar Cells • Characterize different loadings with different sources of light input. • Characterize solar cell thermal behavior. • Characterize operation of solar cell in series and parallel configurations. 1. Characterization of Photovoltaic cells • Battery charger operation • power supply regulation

Equipment VOM Photovoltaic light source or incandescent lamps, day light lamp, halogen lamp. Rheostat LED array Digital Thermometer (contactless) DC to DC converter Lithium Rechargeable Battery Light meter Switching power supply/charger solar panel kits Peltier/Thermoelectric modules

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Required Quantity per group 2 pcs 1 set

10 pcs 5 sets

2 pcs 1 set 1 pc 1 pc 2 pcs 1 pc 1 pc 2 pcs 1 set

10 pcs 5 sets 5 pcs 5 pcs 10 pcs 5 pcs 5 pcs 10 pcs 5 sets

Minimum Required quantity

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Documents 3. Characterization of electrical output of peltier/thermoelectric module with heat energy input. 4. Evaluation of the operation of peltier/thermoelectric modules with dc source, solar cell source, and heat source 5. Characterization of operation of peltier/thermoelectric modules in series and parallel configurations 6. Transformer Characteristics 7. Characteristics of a DC generator

8. Characteristics of a DC Motor

9. AC generator Characteristics

Transformer Mechanical LED Hand Flashlight DC motor DC generator AC generator Motor-Generator set. VOM Tachometer Variac Variable Frequency Controller Module

2 pcs 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc 1 pc

10 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs 5 pcs

The remaining meetings should be allotted to the completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

DATA COMMUNICATIONS

Exercises 1. Transmission Media – Data Communication Standards (ex. EIA/TIA ) 2. Link Layer – Data Communication Standards (Ex. Ethernet, IEEE 802.11) 3. Basic LAN connection – Wire and Wireless Environment 4. WAN Connections using Routing Protocols (ex. PPP, Frame Relay, ISDN, RIP, OSPF)

Required Equipment

Required Quantity per group

Minimum Required quantity

1 unit standard bundle for Data Communication and Networking Laboratory Course consisting of at least: Integrated Services Routers Wireless Router Switches PC with operating system and Networking Software PC Server

5. Network Layer – Addressing, Segmentation and Routing (IPv4 and IPv6)

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1 set

1 server 5 personal computers

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Documents 6. Transport Layers – TCP, UDP and DCCP 7. Application Layer Services – ( ex. HTTP FTP, DNS, DHCP) 8. Converged Technologies – Data Voice and Video in a Packet Switched Network 9. Network and Performance Experiments using Network and Protocol Analyzers The remaining meetings should be allotted for the completion of other course requirements such as practical, oral, or written examinations, where applicable. * maximum of 5 students per group and minimum required quantity is based on class size of 25 students

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