SCHEME - E Fifth Semester (IE).pdf

7/27/2019 SCHEME - E Fifth Semester (IE).pdf

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w. e. f Academic Year 2009-10 E Scheme

MSBTE Final Copy Dt. 18/12/2010 IE51

MAHARASHTRA STATE BOARD OF TECHNICAL EDUCATION, MUM

TEACHING AND EXAMINATION SCHEME FOR POST S.S.C. DIPLOMA C

COURSE NAME :DIPLOMA IN INDUSTRIAL ELECTRONICS

COURSE CODE : IE

DURATION OF COURSE : SIX SEMESTERS WITH EFFECT FROM SEMESTER : FIFTH DURATION : 16 WEEK

PATTERN : FULL TIME - SEMESTER SCHEME : E

SR.

NO.SUBJECT TITLE

Abbrev

iation

SUB

CODE

TEACHING

SCHEMEEXAMINAT

TH TU PRPAPER

HRS

TH (01) PR (04)

Max Min Max Min

1Principles of Computer

Architecture and MaintenancePCA 12186 03 -- 02 03 100 40 -- --

2 Microcontrollers MIC 12187 03 -- 02 03 100 40 50# 20

3Principles of CommunicationSystems

PCS 12194 03 -- 02 03 100 40 -- --

4 Industrial Electronics &Applications IEA 12195 03 -- 02 03 100 40 -- --

5 Advance Industrial Electronics AIE 12196 03 -- 02* 03 100 40 -- --

6Maintenance of ElectronicEquipment

MEE 12191 -- -- 04 -- -- -- 50@ 20

7 Professional Practices-V PPR 12192 -- -- 03 -- -- -- -- --

8Industrial Project &Entrepreneurship Development

IPD 12193 01 01 02 -- -- -- -- --

TOTAL 16 01 18 -- 500 -- 100 --

Student Contact Hours Per Week: 35 Hrs.

THEORY AND PRACTICAL PERIODS OF 60 MINUTES EACH.

Total Marks : 900

@ Internal Assessment, # External Assessment, No Theory Examination, * Practical on Alternate WeAbbreviations: TH-Theory, TU- Tutorial, PR-Practical, OR-Oral, TW- Termwork, SW- Sessional Work

Conduct two class tests each of 25 marks for each theory subject. Sum of the total test marks of all subjectsessional work (SW).

Progressive evaluation is to be done by subject teacher as per the prevailing curriculum implementation an Code number for TH, PR, OR and TW are to be given as suffix 1, 4, 8, 9 respectively to the subject code.


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MSBTE Final Copy Dt. 18/12/2010 12186 IE52

COURSE NAME : DIPLOMA IN ELECTRONICS ENGINEERING GROUP

COURSE CODE : ET/EN/EJ/EX/IE/IS/IC/DE/EV/MU/IU/ED/EI

SEMESTER : FIFTH FOR ET/EJ/EN/EX/IS/IC/IE/DE/EV/MU AND SIXTH FOR

IU/ED/EI

SUBJECT TITLE : PRINCIPLES OF COMPUTER ARCHITECTURE AND

MAINTENANCE

SUBJECT CODE : 12186

Teaching and Examination Scheme:

Teaching Scheme Examination Scheme

TH TU PRPAPER

HRS.TH PR OR TW TOTAL

03 -- 02 03 100 -- -- 25@ 125

NOTE:

Two tests each of 25 marks to be conducted as per the schedule given by MSBTE. Total of tests marks for all theory subjects are to be converted out of 50 and to be

entered in mark sheet under the head Sessional Work. (SW)

Rationale:

The aim of the subject is to teach the basic working of the computer motherboard,

peripherals and add-on cards.

The subject helps the students to do the maintenance of the Computer, peripherals and its

add-on cards.

The students will be able to select the proper peripheral as per their specification and

requirement.

This is the core subject. The pre-requisite of the subject is Microprocessor.

The subject is practical oriented and will develop the debugging skills in the students.

Objectives:

The student will be able to:

1. Debug and repair the faults in system.

2. Assemble the system.

3. Load the operating system and device drivers in the system.


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Learning Structure:

Application

Procedure

Principle

Concepts

Facts

Understand the architecture of PC, use different techniques to

troubleshoot the PC problems using preventive measures and repairing.

Learning architectural

details

Logic of

components

Motherboard, drive

formatting, latency,landing zone, HDD,

FDD, Active, Passive,

modular motherboard.

AT, ATX,

motherboard,

AGP, PCI Port

etc

Problems of

system boards,

display

problems

Tools for

repairing the

faults, types of

tests

- Write everything down

- Do the easy stuff first

- Check for operator error- Check the software

- Check external signals

- Run diagnostic programs.

Repairing the different

components of PC by

using different methods

Rules of

troubleshooting

Rules of repairing

Error codes, memory package, styles and structures,

memory signals, memory manager, disk manager, EZ-Drive,DMI, SCSI, Video adapter etc.


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Contents: Theory

Chapter Name of the Topic Hours Marks

01

Motherboard And Its Components

1.1 Different types of PC configurations and their comparison1.2 Chipset basic, chipset Architecture : North/South Bridge

architecture and Hub architecture

1.3 Architecture of Intel chipset 915 G& 945 G1.4 Overview and features of ISA, PCI-X, PCI-Xpress, AGP,

Processor Bus (no pin description) Comparison between PCI

and PCI Express

1.5 Logical memory organization : Conventional memory,Extended memory, Expanded memory (No memory map)

1.6 Concept of cache memory : Internal cache, External cache(L1, L2, L3 cache)

1.7 Overview and features of SDRAM, DDR, SDRAM, DDR2,SDRAM, DDR3

1.8 BIOS Basics

08 16

02

Storage Devices And Its Interfacing2.1 Recording Technique : RM, MFM, RLL Perpendicular

magnetic recording

Hard disk construction and working Terms related to Hard Disk : Track, Sector cylinder,

cluster, Head parking, MBR, Zone recording

Formatting, Low level formatting, High level formatting,partitioning

2.2 Hard disk drive interface : features of parallel AT attachment

(PATA), Serial AT Attachment (SATA), External SATA (no

pin discription)

CDROM drive : Construction, recording DVD : Construction, Recording

08 20

03

Display Devices & Interfacing

3.1 CRT colour monitor : Block diagram and function of each

block

3.2 Characteristics of CRT monitor : Dot pitch, Resolution, Video

bandwidth, Horizontal scanning frequency, Interlaced versus

non interlaced monitor

3.3 Advantages of CRT display over LCD display

3.4 LCD monitor : functional block diagram of LCD monitor,

working principal, advantages and disadvantages Types :

Passive matrix and Active matrix, Important characteristics :

Resolution, Refresh rate, Response time.3.5 Basic block diagram of a video accelerator card

05 12

04

Input & Output Devices

Construction, working & Installation of :

4.1 Keyboard.

4.2 Mouse: Mechanical, Optomechanical, New optical

4.3 Scanner: Types, Flat bed, Block diagram and specifications.

4.3 Modem: Internal and External: Block diagram and

specifications.

4.4 Printer: Dot matrix, Inkjet, Laser: Block diagram and

08 16


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specifications

05

Power Supplies

5.1 Block diagram and working of SMPS.

5.2 Signal description and pin diagram of AT and ATX connectors5.3 Power supply characteristics: Rated wattage, Efficiency,

Regulation, Ripple, Load regulation, line regulation

5.4 Power problems : Blackout, Brownout, surges and spikes5.5 Symptoms of power problems5.6 Protection devices : Surge suppressor : working5.7 UPS : Block diagram, working, Types, Rating

04 12

06

Interfaces

6.1 SCSI, SCSI cables and connectors, SCSI drive configuration.

6.2 USB features

6.3 RS232 : (Voltages & 9 pin Signal description)

6.4 Centronics (interface diagram, signals and timing waveform)

6.6 Firewire features

05 12

07

Pc Diagnostic, Testing And Maintenance And Tools

7.1 Preventive Maintenance : Active Preventive maintenance,passive preventiv maintenance, periodic maintenanceprocedure

7.2 Preventive maintenance of peripherals of PCs.7.3 Fault finding and troubleshooting of the above peripherals7.4 ESD (Electrostatic discharge), RFI protection7.5 Working of logic probe, logic purser, current

10 12

Total 48 100

Practical:

Skills to be developed:

Intellectual Skills:1. Sequencing of steps2. Methods of Fault Finding

Motor Skills:

1. Follow Proper Procedure.List of experiments:

1. Study of components of Pentium IV motherboard2. Study of HDD, its installation and partitioning3. Study of Display adapter4. Study of Keyboard5. Study of Mouse and its types6. Study of Flat bed scanner7. Study of printers (Any one type, preferably Laser printer)8. Study of modems9. Study of SMPS10.Study of UPS11.Study of preventive maintenance of peripherals of PC


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Learning Resources:

Books:

Sr. No. Author Title Publisher

01Mike Meyers, Scott

JerniganManaging & Troubleshooting PCs Tata McGraw Hill

02 Bigelow Bigelow's Troubleshooting,Maintaining & Repairing PCs

Tata McGraw Hill

03 Mark MinasiThe Complete PC Upgrade &

Maintenance GuideBPB Publication

04 D. Balasubramanian Computer Installation & Servicing Tata McGraw Hill

05 Scott Mueller Upgrading & Repairing PCs Pearson Education


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COURSE CODE : ET/EN/EX/EJ/IE/IS/IC/DE/EV/MU/IU/ED/EI

SEMESTER : FIFTH FOR ET/EN/EX/EJ/IE/IS/IC/DE/EV/MU AND SIXTH FOR

IU/ED/EI

SUBJECT TITLE : MICROCONTROLLERS




TH TU PRPAPER

HRSTH PR OR TW TOTAL

03 -- 02 03 100 50# -- 25@ 175

NOTE:



Rationale:

This subject comes under the technology area. The prerequisite of this subject is the thorough

knowledge of architecture of 8085 Microprocessor and its programming. The peripheral devices of

8085 microprocessor such as PIO 8155 and 8255 and data converters are covered in this subject

The knowledge of interfacing of peripherals will help the students in acquiring the design skills and

for applications like stepper motor control and temperature control systems.

The technology of microprocessor has led to a single chip Microcontroller technology MCS-

51 family architecture, details of 8051 Microcontroller and its programming is covered in this

subject use of assembler and stimulator for programming of Microcontroller will make the students

equipped for the development of embedded systems.

Objectives: The student will be able to:

1. Use data transfer techniques.2. Describe architecture and operation of microcontroller 8051.3. Develop assembly language programs using instruction set of 8051.4. Design and develop microcontroller based systems.5. Explain various applications of microcontrollers.


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Learning Structure:

Procedure

Application To develop and use microcontroller based systems

Principle

Concept

Functional Block

Diagram, pin out,

operating modes of

ICs

Addressing modes

and instructions of

8051

Facts IC 8155, 8255,

8355, 8755Electronic Components

and circuitryArchitecture of

8051

Functional block diagram,

registers, control signals,

timers, counters, I/O ports,

interrupts in 8051

microcontroller

Principles of assembly language programming of 8051

Procedural steps for writing, assembling

and executing assembly language

programs for 8051

Procedural steps for design and

development of 8051

microcontroller based systems


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Contents: Theory


01

Peripheral Devices

1.1Need of peripheral1.2Data Transfer Techniques

Serial and ParallelHand shaking, Polling, Interrupt driven & device driven

Microprocessor controlled with DMA

(Only concept of DMA; no chip details)

Synchronous and Asynchronous

Simplex & Duplex

Baud rate - Define

02 06

02

Programmable I/O Devices

2.1 IC 8155Block Diagram, pin out, operating modes,

Simple I/O programs and Interfacing with 8085

Microprocessor.

Minimum system configuration of 8085 Microprocessor. IC 8255

Block Diagram, pin out, operating modes,

Simple I/O programs and Interfacing with 8085

Microprocessor.

Comparison of 8155 & 8255 peripheral.

04 08

03

Interfacing of A to D Converter with 8085 Microprocessor.

1) Using Handshaking2) Using interrupts

Interfacing of D to A Converter with 8085 Microprocessorand pgm for different waveform generation using 8255.

Practical Applications using 8085 Microprocessor.- For Stepper Motor Control operation

- For Temperature Control operation.

08 16

04

Introduction to Microcontroller

3.1 Comparison of Microprocessor, Microcontroller.

3.2 Evaluation of Microcontroller

3.3 Terminology: - RISC, CISC, VLIW, Harvard and Von

Neumann Architectures

3.4 Memory types:- EEPROM and FLASH

3.5 Specification & comparison of 8051, 8751 & 8951.

02 04

05

8051 Microcontroller

4.1 MCS-51 Architecture and details (from intel manual)

4.2 Pin configuration and pin function of 8051.4.3 Function of Clock, Oscillator, Registers, Register bank

mapping, DPTR, Flags, Stack, PC, Ports

4.4 Concept of Data Memory and Program Memory

4.5 Connections of External Memory and timing diagram.

4.6 8051 Boolean Processors

14 20

06

MCS-51 Addressing Modes and Instructions

5.1 8051 Addressing modes

5.2 8051 Instruction Set

5.3 Simple Programming ( in assembly language)

08 20


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07

Assembly language programming

6.1 Development systems tools

Editor, Assembler, Linker

6.2 Creating various files to run the 8051 program (asm, obj, lst

and hex files)

6.3 8051 Data Types and Directives

(DB, ORG, EQU, END etc.)6.4 Software Simulators of 8051

02 06

08

MCS-51 Timers/Counters, Interrupts and Serial

Communication

7.1 Study of Timer SFRs (TMOD, TCON, TLX, THX)

7.2 Timer modes of 8051 and programming of 8051 timers.

7.3 Generation of time delay.

Power saving options of 8051 ( study of PCON)

08 20

Total 48 100

Practical:

Skills to be developed:Intellectual Skills:

1. Reading2. Sourcing of Web sites

Motor Skill:

1. Testing2. Measurement

List of Practical:

1) 8155 Interfacing :( I/O Mode, Generation of square and sine wave using Timer mode)2) 8255 Interfacing: (I/O Mode and BSR Mode Operations)3) Generation of square, triangular and sine wave using DAC4) Any one application of A to D converter Interfacing.5) Stepper Motor Control6) Addition, Subtraction, Multiplication and Division operations7) Packing and unpacking of 8 bit data

8) Finding seven segment code using look up table

9) Square wave generation using internal timer of 8051

Learning Resources:

Books:

Sr. No. Author Title Publisher

01 Deshmukh Microcontrollers: Theory & Applications Tata McGraw-Hill

02 PredkoProgramming & Customizing 8051

MicrocontrollerTata McGraw-Hill


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COURSE NAME : INDUSTRIAL ELECTRONICS/INSTRUMENTATION

/ INSTRUMENTATION & CONTROL

COURSE CODE : IE/IS/IC/IU

SEMESTER : FIFTH FOR IE/IS/IC AND SIXTH FOR IU

SUBJECT TITLE : PRINCIPLES OF COMMUNICATION SYSTEMS


Teaching and Examination Scheme:-


TH TU PRPAPER


03 -- 02 03 100 -- 25@ -- 125

NOTE:



Rational:

This subject comes under core technology group. It intends to teach the students facts,

concepts, procedures of communication systems as well as advanced communication system. The

knowledge of the subject will help the students to handle and operate the different communication

systems at their work place after completion of the subject.

Objectives:

Due to globalization and competition, industries are developing fast and incorporating

automation in various sectors. The future trend indicates that,

The students will be able to:1) Describe various electronic systems.

2) Compare various types of modulation techniques.

3) Analyze different types of audio and video systems.

4) Use principles in operating different types of communication facilities such as satellite,

telephone, mobile and data communication.


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Learning Structure:

Applications

Principles

Concepts

Facts

Principles

of AM,

FM, Pulse

Modulation

and Digital

Carrier

Modulation

Radio (Wireless)

Communication

S stems

Wire

Communication

Various Communication Sources

Apply Communication System in understanding

Working of Audio and Video Systems

Principl

es of

Antenn

a and

Wave

Propaga

tion

Principl

es of

Audio

and

Video

System

Principl

es of

Satellite

and

Cable

TV

Principles of

Telephony

System, Fiber

Optics, FAX,

Cellular Phone

& Cable

Principles

of Data

Communic

ation1) LAN,

WAN, MAN

2) Internet


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Contents: Theory


01

ANALOG COMMUNICATION

1.1 Introduction to electronic communication system and

modulation techniques.

1.1.1 Importance of communication system.1.1.2 Types of electronic communication system, concept

of:- Simplex, Duplex half & full, analog systems,

Digital systems, Modulation.

1.1.3 Electromagnetic spectrum

1.1.4 Concept of transmission bandwidth

1.2 Types of Modulation-

1.2.1 Amplitude of Modulation: - definition, Representation

in frequency. & Time domain, bandwidth required for

AM, modulation Index and total carrier power

numerical (no derivation only using formulas).

1.2.2 Block diagram with explanation of super heterodyne

AM receiver.1.3 Frequency modulation

1.3.1 Frequency modulation: Definition, Representation in

time domain, Deviation ratio, maximum deviation

ratio, and bandwidth for FM.

1.3.2 Block diagram of Foster- Seeley discriminator type

FM receiver with function of each block.

1.4 Application of AM & FM, comparison of AM & FM.

08 16

02

DIGITAL COMMUNICATION

2.1 Pulse Modulation

2.1.1 Definition of Pulse Modulation

2.1.2 Sampling theorem & Nyquist Criteria (Onlystatements)

2.2 Different types of Pulse modulation system with, Definition,

waveforms, application, advantages and disadvantages of each.

2.2.1 PAM (pulse amplitude modulation)

2.2.2 PWM (pulse width modulation)

2.2.3 PPM (pulse position modulation)

2.3 Pulse code modulation: - Definition of PCM, Quantization

process, Quantization error, Quantization error

2.3.1 PCM: - advantages and disadvantages

2.4 Digital carrier modulation

2.4.1 Different types of pulse modulation with definition,

waveforms and

Application of: - Amplitude shift keying, Frequency

shift keying, Phase shift keying and Quadrature

amplitude modulation.

08 16


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03

Introduction to Television

3.1 Different TV standards as i) NTSC and ii) CCIR B

3.2 Block diagram of monochrome Transmitter and receiver,

function of each block

3.3 Compatibility

3.4 Colour composite video signal

3.5 Col. TV Standards (only PAL system)3.5.1 Primary and secondary colours, Grass mans law

3.5.2 Colour difference signals

3.5.3 Colour burst signal

3.6 Block diagram PAL D receiver and function of each block.

3.7 Introduction to direct to home TV

07

07

12

12

04

4.1 Telephone system and its applications

4.1.1 Concept of FAX

4.1.2 Components of facsimile system: Diagram with

explanation

4.1.3 Scanning mechanism

4.1.4 Data compression

4.1.5 Block diagram Of FAX Tran receiver4.2 Telephony systems

4.2.1 Landline telephony DTMF,

4.2.2 Different tones used in telephony,

4.2.3 Cordless phone.

4.3 Introduction to cellular phone system

4.4 Cellular concept

4.5 Concept of Hands off technique

4.6 Concept of frequency reuse

4.7 Cellular Telephone Systems:

4.7.1 GSM Group Special Mobile or Global System

4.7.2 CDMA - Code division multiple access.

10 24

05

Data Communication

5.1 Modes of Data transmission serial, parallel, Synchronous,

asynchronous communication.

5.2 Simplex & Duplex Communication.

5.3 Network architecture and the OSI reference model.

5.4 MODEM

5.5 Introduction to networks & network topologies LAN, WAN,

MAN

5.6 9 pin RS 232 standard for serial communication

08 20

Total 48 100

Practical:Skills to be developed:

Intellectual Skills:

i) Locate faults in various electronic circuits

ii) Interpret test results

Motor Skills:

i) Observation skill

ii) Acquisition of data.


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List of Practical:

1. Measure modulation index of AM by varying amplitude and frequency2. To observe the waveforms by changing carrier and modulating frequency and by

changing shape of the modulating signal i.e. square wave

3. To observe the waveforms of FM by changing carrier and modulating frequency andby changing shape of the modulating signal i.e. Square wave.

4. To observe the wave form of PAM: Change shape and frequency of carrier and modulatingsignal5. To observe the wave form of PWM: Change shape and frequency of carrier and modulating

signal

6. To observe the wave form of PPM: Change shape and frequency of carrier and modulatingsignal

7. To observe the wave form of PCM: By using 4 bit / 6 bit8. Observe colour composite signal on CRO of video and chroma section and draw it.9. Waveform analysis of colour TV at different test points.10.Fault finding in horizontal oscillator section of TV.11.Fault finding in VERTICAL SECTION of TV.12.Study of PWM using FOC13.Analog link using FOC14.Digital link using FOC15.Arrange a visit to LAN network in your college, and draw layout for it. List the different

components used in it. Write specifications for each.

16.Draw layout for 20 computers in LAN network. List the components required to design it.Make a market survey for that.

17. Search different sites TV manufacturing companies (any 3) and compare them on the basisof components used , their specifications, cost etc.

Learning Resources:

Books:

Sr.

No.Author Name Publication

01 Kennedy Electronic communication systems. TMH Publication

02 Frenzel Communication Electronics TMH Publication

03 Anita Divakar Electronic Communication System TMH Publication

04 R. G. Gupta Audio & Video Engineering TMH Publication

05 William Lee Satellite Communication --

06 R.G Gupta Television Engg and Video System TMH Publication

07 Gulati Principles Of Video Engineering --

08 Manohar Lotia CD Player Manual BPB Publication


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COURSE NAME : DIPLOMA IN INDUSTRIAL ELECTRONICS

COURSE CODE : IE/IU

SEMESTER : FIFTH FOR IE AND SIXTH FOR IU

SUBJECT TITLE : INDUSTRIAL ELECTRONICS & APPLICATIONS




TH TU PRPAPER


03 -- 02 03 100 -- 25# 25@ 150

NOTE:



Rationale:

Over the years the design and construction of electronic devices and circuits have changed

dramatically. The needs of the technician and experimenter have also changed over the years. In

order to construct industrial circuits, engineer has to have a firm grasp of the fundamentals of

power electronics. The background required is familiarity with basic power electronic concepts.

Industrial electronics aspect is introduced to cater specifically the needs of students of Industrial

Electronics engineering. Power electronics play important role in electronics power generation andpower transformation. The content of power electronics is beyond the scope of one semester and

hence Industrial electronics subject is continuation of power electronics. This subject is important

link between basic electricity and advanced electronic applications. This subject shall provide firm

foundation for many industrial applications and processes.

Industrial electronics shall play very important role for shop floor engineers in the field of

industrial applications like conversion, inversion, and stabilization of ac & dc power control etc.

Also it will help engineer in the field of power generation, transformation and distribution in ac

power. At the same time in the field of dc power requirement in industries, laboratories. This

subject is heart of many industrial processes like battery charging, UPS, welding, time controlled

processes, temperature controller operation etc.

Objectives:Student will be able to:

1. Choose a device for a specific application2. Describe the operation of various converters, invertors, choppers, regulator3. List applications of converters, invertors, choppers, regulator4. Select proper device for a given application


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Learning Structure:

Power conditioners.Stabilizer, UPS, SMPS

Industrial

drives

Electronic ballast, HVDC

transmission, electricwelding, battery charger

Industrial applications

Dc to dc converter-

Switch modeconverter (chopper)

Dc to ac converters

Inverters

Static switch

Power electronic semiconductor switches (power transistor, power

MOSFET, IGBT)

Small signal diode, BJT, FET, MOSFET, Power diode, Thyristor


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Contents: Theory


1

Non Latching Devices:

a) Need for power transistor, power MOSFET & IGBT

Constructional details, operating principle, characteristics.b) Study of above devices with reference to the parameters

i] Voltage and current rating

ii] Turn on and turn off time

iii] leakage current

iv] Conduction loss & switching loss

v] Gate triggering requirements drive , gate dissipation

c) List of applications of above devices

d) Introduction to SIT , MCT , FCT

06 16

2

Dc to DC converter (chopper)

Basic block diagram, operating principle. Classification of

choppers on the basis of:

a] output voltage step up & step downb] Commutation method series turn off & parallel turn Off

c] Quadrant of operation single quadrant , two quadrant , four

quadrant, Jones chopper Circuit, operating principle,

Applications of choppers.

06 14

3

DC to AC converter ( Inverter )

a] Basic principle of inverter

b] Classification on the basis of :

1. Energy source voltage source & current source.

2. Commutation series & parallel

c] Voltage source inverters :

i] Series inverterii] Parallel inverter with R & RL load

iii Bridge inverter : simple bridge inverter with R load

bridge inverter with Mc Murray Bed Ford commutation, Bridge

inverter with Mc Murray commutator.

d] Resonant inverters Zero voltage switching

e] Output voltage & harmonics control using PWM control

method.

f] Listing of applications.

g] Specifications.

06 14

4

AC & DC voltage regulator

a) Ac voltage regulator

Need of ac voltage regulator (power line disturbances)Regulator types : Relay type , servo type , Resonant type, solid

state type ( tap changing & phase control)

Circuit diagram , operating principle , applications of above

types, Specifications

b) Switching regulator (SMPS)

i] Need

ii] Power supply requirements: Regulated output, isolation,

multiple outputs, efficiency, size, weight

iii] Review of linear regulator

08 12


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iv] SMPS : Block diagram

Explanation of:

1] Isolation transformer : its requirements & core properties

2] Converter circuits : Push-pull , half bridge & full bridge

3] PWM control

4] Specifications

5

UPSa] Need of UPS

b] Basic block diagram of UPS & operating principle,

explanation of rectifier , battery , inverter , static

transfer switch

c] Types of UPS : Off line UPS, On line UPS, Line

interactive UPS & their comparison

d] UPS specifications Input voltage range, dc voltage range,

transient response, response time, total harmonic distortion,

output frequency, output waveform, transient recovery, load

power factor & types of protection.

08 12

6

Applications

a] Ac voltage controllerb] HVDC & transmission

c] Resistance welding Basic block diagram, Types,

Welding control -SCR Line contactor, Heat control,

Welding timer.

d] Electronic ballast

e] Battery charging regulator , emergency light

f] Temperature controller

g] Ac flasher

h] SCR , UJT time delay & ultra precise time delay circuit

(Note: Points e, f, g, h are to be taught in laboratory).

08 16

7

Protection circuitsa] Need of protection circuits

b] Snubber circuits: Their functions, operating principle of

unpolarised RC, polarized RC & polarized LR snubbers.

c] Over current protection & over voltage protection

d] Isolation circuits : pulse transformer & optoisolator

e] Crowbar protection, current fold back , spike suppressor

f] Circuit breaker

08 16

TOTAL 48 100

Practical:

Intellectual Skills:1. Reading2. Searching on Web sites

Motor Skill:

1. Testing2. Measurement


20/40



List of Practical:

1] Characteristics of power transistor.

2] Characteristics of IGBT.

3] Characteristics of MOSFET.

4] Study of snubber circuit.

5] Study of step-up chopper.

6] Study of step-down chopper.

7] Study of series inverter.

8] Study of parallel inverter.

9] Study of servo voltage stabilizer.

10] Study of UPS.

11] Study of SMPS.

12] Study of liquid level controller.13] Study of resistance welding.

Learning Resources:

Books:

Sr.

No.Author Title Publisher

01 Singh Power Electronics Tata McGraw-Hill

02 Bhattacharya

Industrial Electronics &

Control Tata McGraw-Hill

03 ZbarIndustrial Electronics: A Text

Lab ManualTata McGraw-Hill

04 Petruzella Industrial Electronics McGraw-Hill International


21/40



COURSE NAME : DIPLOMA IN INDUSTRIAL ELECTRONICS

COURSE CODE : IE/IU

SEMESTER : FIFTH FOR IE AND SIXTH FOR IU

SUBJECT TITLE : ADVANCE INDUSTRIAL ELECTRONICS




TH TU PRPAPER


03 -- 02* 03 100 -- 25# 25@ 150

* Practical on Alternate Week.

NOTE:



Rationale:

With advancement of technologies, industries had undergone revolution. To cope up with

the modern industries diploma level students are to be exposed to the modern techniques.Advanced Industrial Electronics subject is classified under technology group. The subject enables

the student to learn basic facts, concepts, principles & procedures and safety used in modern

industries. The knowledge of Industrial electronics will help students to develop supervisory &

testing skills. It will also help the students to develop planning, scheduling as well as personal

Skills.

Objectives: Students will be able to:

1. Prescribe non destructive tests for materials.2. Operate Modern Machinery.3. Use CNC machine techniques.4. Follow safety procedures.


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Application

Learning Structure

To develop the skill of implementing & testing different industrial

Electronics concepts, principles & application circuits in industries

Demonstration of

NDT techniques

such as UT &

MPT

Demonstration of

EDM technique &

NC-CNC machining

techniques

Demonstration of

surface hardening

of steel

Principles of

ultrasonic testing

& magnetic

particle testing

Principle of

non-traditional

machining

EDM

Principle of

automatic

machining

technique

Principle of

controlled

heating

process

Ultrasoni

c flow

detection

Magnetic

crack

detection

Electro-

dischar

ge

machini

Numerical

control &

computer

numerical

control

Indu-

ctionto

heat-

ing

Diel-

ectric

Heat-

ing

Non Destructive

testing techniques

Modern Machining

techniques

Controlled RF

heating techniques

Concept of modern industry which utilizes different testing, machine &

controlling systems

Different industrial circuits studied in industrial electronics area

Testing , machining & controlling systems used in industrial applications

such as UFD , MCD , EDM , NC/CNC, induction heating , dielectric heating

Procedure

Principles

Concept

Facts


23/40



Content: Details


1

Concept of modern industry & Safety

Introduction of modern industry

Information of modern industry

Concept of modern industry, problems in traditional industries,

use of electronics systems in industries.Intrinsic safety Area, Classification, Knowledge of

authorizedregulatory bodies, intrinsic safety related standards,

explosionpackage, alarm annunciators.

Reliability of various electronic components and systems

02 08

2

Non destructive testing methods:

Ultrasonic flaw detection

Introduction to non-destructive testing.

Different NDT methods Magnetic crack detection, Ultrasonic,

Radiography, Liquid penetration, Eddy current.

Basic concept of ultrasonic generation transducers, piezoelectric

transducer, piezoelectric effect, and magnetostriction coil

transducer, magnetostriction effect.

Different generation methods of ultrasonic waves, mechanical

methods, thermal method, modern method of ultrasonic

generation (introduction level) electronics methods

piezoelectric oscillator & magnetostriction oscillator

(transistorized circuits) :- circuit diagram, working, frequency

range, equation, advantages, disadvantages & applications.

Application of ultrasonic- Ultrasonic flaw detection,

resonancemethod, through transmission method (introduction

level) Pulse echo method block diagram and explanation,

Ultrasonic flow detection/meter, level detection(measurement of

liquid & solid)different probes :- normal & angle probes

materials for probes quartz, ceramic, lithium sulphate,

couplets.

Ultrasonic cleaning, soldering, cold welding heating,

Applications : block diagram and explanation

Other application thermal effects, thermo acoustic method

&electronic acoustic methods.

Advantages & limitations of ultrasonic applications in industry

12 20

3

Magnetic Crack Detection

Introduction to magnetic crack detection (magnetic particle

testing)

Materials used in MPT Base material (material under test) :-

ferromagnetic material, inspection media : ferromagnetic

material powders non fluorescent, fluorescent, colour

powders, liquids like kerosene, water, light petroleum distillate

(wet method), black light or ultraviolet source (magnaglo

method)

Principle of MPT, orientation of magnetic field, Longitudinal

magnetization (principle using bar magnet)

Circular magnetization (principle using circular magnet)

Method of magnetization of base material (job under test)

06 16


24/40



Longitudinal magnetization: Coil shot method, yoke method,

torroidal method. Circular

magnetization: Headshot method, central conductor method and

prod magnetization method. Locallised magnetization: Torroidal

method, prod magnetization method, horse shoe magnet

method.

Types & amount of magnetizing current used for magnetization,equation of magnetizing current.

Methods of crack detection Dry method Wet method

magnaflux method, magnaglo method, partical size, advantages,

limitations of each method, demagnetization.

Indications obtained & standards used in MPT

Techniques of recording results :-

Transparent plastic tape

Strippable lacquer film Photography

Standards used in MPT

4

Non Traditional Machining & mass production techniques.

Electro Discharge machining

Introduction to Non traditional machining techniques thermal &electro thermal, chemical & electrochemical, mechanical

Introduction to thermal & electro thermal type NTM i.e. EDM.

Principal of EDM, schematic diagram & explanation

Basic set-up of EDM. Schematic representation of EDM process

& explanation. Concept of subsystems used in EDM set-up such

as servo motor, high pressure pump, filter, pressure gauge,

vacuum pump, dielectric fluid, electrodes, D.C. supply.

Applications of EDM: Drilling of micro holes, thread cutting

using EDM, wire-cut EDM as special application. Application

diagram & explanation.

Advantages & disadvantages of EDM.

06 12

5

NC/CNC machines

Introduction to NC, CNC, DNC, CIM system, points considered

in selection of components for NC and CNC machining. Basic

components of NC and CNC explanation of each block,

Different input media used in NC/CNC. Block diagram and

explanation of NC and CNC machines.

Classification, Construction, operation fo NC/CNC machines,

features considered while designing, structure of NC/CNC

machines Part programming of NC/CNC, steps involved, manual

part programming, ISO, EIA codes of programming, G codes, M

codes and programming using different formats. Use of

subroutines, do loop scanned (fixed) cycles in programming.Computer aided part programming; High level languages used in

part programming, introduction to APT language and small

application programs.

16 28

6

Controlling techniques

High frequency heating

Introduction to different heating techniques-

Induction heating, Dielectric heating, IR heating, Microwave

heating.

Introduction to induction heating Principle of induction heating,

06 16


25/40



basic set-up of induction heating. Block diagram and explanation

of induction heating, use of reset timer in the system.

Oscillator circuit used in induction heating system, circuit

diagram, working, frequency range, application area.

Application of induction heating system. Surface hardening of

steel, Annealing, brazing and other applications. Block diagrams

and explanation.Advantages and disadvantages of induction heating.

Introduction to dielectric heating. Principle of dielectric heating,

Block diagram and explanation of dielectric heating.

Applications of dielectric heating. Comparison of dielectric and

induction heating, Advantages and disadvantages of dielectric

heating.

Total 48 100

Practical: Skills to be developed:

Intellectual Skills:

1. Reading

2. Sourcing of Web sites

Motor Skill:

1. Testing

2. Measurement

List of Practical:

1. Visit to automation industry

2. Demonstration of ultrasonic flaw detection using pulse echo system with standard

reference blocks.

3. Demonstration of different industrial techniques used of MPT for surface & subsurface

crack detection.4. Demonstration of EDM process. (Die cut & wire-cut EDM demonstration should be

shown)

5. Demonstration of NC/CNC machines.

6. Demonstration of surface hardening of steel using induction heating system.

7. Demonstration of dielectric heating system.

Learning Resources:

Books:

Sr.

No.Author Title Publisher

1 V.N.BindalTransducers for Ultrasonic

flow detectionNarosa Publishing House

2 B.S.Pabla, M.Adithan CNC Machines New age International (P) Ltd.

3

Baldev Raj

T.Jayakumar

M.Thavasimutha

Practical Non-Destructive

TestingNarosa Publishing House

4S.K.Bhattacharya

S.Chatterjee

Industrial Electronics &

Control

Tata mcgraw Hill Publishing

company Ltd.

5 HMT Production TechnologyTata mcgraw Hill Publishing

company Ltd.


26/40



COURSE NAME : DIPLOMA IN ELECTRONICS ENGINEERING GROUP (EXCEPT EV)

COURSE CODE : ET/EN/EJ/EX/IE/IS/IC/DE/MU/ED/EI/IU

SEMESTER : FIFTH FOR ET/EN/EJ/EX/IE/IS/IC/DE/MU AND SIXTH FOR

ED/EI/IU

SUBJECT TITLE: MAINTENANCE OF ELECTRONIC EQUIPMENTS

SUBJECT CODE: 12191

Teaching and Examination Scheme


TH TU PRPAPER


-- -- 04 -- -- 50 @ -- -- 50

Rationale:

This subject will develop the basic skills of maintenance of electronic equipments also

provides the necessary knowledge and competence in fault finding, systematic repair of electronic

test equipment.

Also give the knowledge of maintenance management of service dept/ service enterprises

working in industry / as a profession.

Objective:Students will be able to:

1. To develop tracing, testing, maintenance and trouble shooting knowledge.2. To develop analysis of circuit working3. To develops different fault finding technique like, visual inspection, Tracing voltage

analysis , Signal analysis

4. Able to find the equivalent components with the help of data book.5. Effective use of internet6. Effective use of computer, operation manual, service manual.


27/40



Contents:

Chapter Name of the Topic Hours

01

Reliability aspects of electronic equipment

Traditional bathtub reliability curve Generalized reliability curve Mean time to fail Failure rate Mean time between failure Mean time to repair Mean time to restore system Thermal acceleration Electrical acceleration Damp heat acceleration Practical reliability Quality standards Maintenance policy Preventive maintenance Corrective maintenance Qualitative Maintenance

04

02

Maintenance Management

Maintenance policy Equipment service options Types of contract General contract provision Maintenance organization Training Maintenance Personal Planning of spare parts inventory Assessing spare parts requirement Essentials of a good equipment management programme Planning for new equipment Acquisition process Planning of utilities Incoming inspection Inventory control User training Technical training Management of service manual and reference library Maintenance Arrangement Calibration Check Preventive Maintenance

ALERT Issue Quality Assurance Installation procedure Environmental considerations Humidity Altitude Shock and vibrations Protection from electro-magnetic interference Safety Service and maintenance laboratory

10


28/40



Work bench Power for work bench Lighting Storage Maintenance system overview Log book Performa for recording specifications Performa for preventive maintenance Performa for corrective maintenance Data Analysis Information Tags Personal Safty

03

Fundamental Troubleshooting Procedure

Reading of block diagram Reading of circuit diagram Reading of working diagram Di-assembly Re-assembly Trouble shooting process Fault establishment Fault correction Fault finding aids Service, Maintenance & Instruction manuals Test and measuring Tools Pre Trouble shooting technique Preliminary observation Functional area approach Split half method Divergent path Convergent path Feed back path Systematic troubleshooting checks Check control selting Checks associated equipments Visual check

Calibration Isolates the troubling circuit Measurement Individual components

14

04

Trouble shooting procedure

1. Visual inspection

2. Measure Voltage levels Presence of signal & the signal waveform

3. Component failure

Out of circuit test In circuit Test

4. Signal Tracing5. Functional analysis

02


29/40



05

Trouble shooting aids

Tools

Service manual Circuit diagram Circuit board location Voltage analysis Fault finding flow check Diagnostic software List of replace able parts

Data manuals

Trouble shooting technique

Voltage analysis Signal injection Signal tracing

02

Total 32

Note: Theory is to be covered during Practical Period

Practical:

1. Testing of resister, capacitor and inductance by using multimeter and LCR meter, CRO.2. Testing of Transistor by using multimeter and transistor TESTER,CRO3. Testing of IC using IC tester4. Testing of variable resisters, connector, switches, by using multimeter.5. Testing of diodes, zener diode, varactor diode, VDR, Photo diode, Tunnel diode, LDR,

Thermister, 7 segment display, FET, MOSFET, SCR, Triac with help of multimeter

(testing Zig)

6. LAY OUT OF Components in given power supply

Tracing of voltage regulation section in given power supply Voltage analysis in given power supply Fault finding in given power supply by voltage analysis method Fault finding in power supply by voltage analysis method.

7. LAYOUT of components for given function generator

Tracing of alternation section used in function generator Voltage analysis in given function generator Fault finding in function generator by voltage analysis method Fault finding in function generator by voltage analysis method Fault finding in function generator by voltage analysis method.

8. Layout of components for given CRO

Tracing a vertical section used in CRO Voltage analysis in CRO Signal Tracing in CRO Fault finding in CRO by voltage analysis method Fault finding in CRO by voltage analysis method Fault finding in CRO by voltage analysis method Fault finding in CRO by signal Tracing method.9. Visit web site to get information about manufactures, Specification and cost. Which will be

filled in tabular form for following measurement and Testing equipments ( ANY 5)

1. logic analyzer


30/40



2. logic probe3. logic pulser4. logic chip5. Waveform generator6. Pattern generator7. IC Tester8. Curve Tracer9. RF power meter10.Field strength meter11.Distortion factor meter12.Accessories for SMD soldering and disordering13.Soldering & disordering station14.Digital storage oscilloscope15.Spectrum analysis

10. Draw the layout with the help of computer

1. Performa for recording specification in log look2. Performa for preventive maintenance3. Performa for corrective maintenance4. Performa for data analysis5. Layout for service department6. Layout for store department7. Layout for servicing table

11. Find equivalent components by using data book/ Internet

(at least five components in each type)

1. Transistors2. Diodes3. FET/MOSFET4. IC TTL5. IC CMOS

12. Prepare fault finding flow chart using computer (at least for two faults in each equipments)

Power supply Function generator CRO

13. Collect the catlog from market/ Internet and write down the information about specification

manufacture, cost for the following

(at least five from each group)

(A)

Resister LCD Display

Capacitor LED Display

Inductors Microprocessor

Transformer Micro controllerDiode Switches

Darlington Tr Fuses

FET IC Sockets

MOSFET Solder materials

IGBT Soldering station

Photo devices Desolder (widing pump)

TTL IC heak sink

CMOS IC

Thyristors


31/40



(B)

Pliers

Cutters

Spanners (Wrenches)

Screw drivers

Jewelers screw driversHack jaw

Hand drill & drills

Files

Hand held power tools & whole complement of drilling, grinding, polishing, soldering and cutting

attachment

(C)

Brushes

Blades

Sponge

Inspection mirror

Magnifying glassThread

Sleeves

(D)

Contact cleaners

Control cleaners

Lubricants (WD40, LPSI)

Flux remover

Tunner cleaner

Adicheives

Solvent release

Silicon rubber

Industrial Visit:

1. Any service dept. in electronic factor2. Any service enterprises in your city related with electronic goods.

Learning Resources:

Books:

Sr.

No.Author Title Publication

01 R.G. GuptaElectronic Instruments &

System

Tata MacGraw Hill

02 R.S. KhandparTrouble Shooting Electronic

EquipmentTata MacGraw Hill

03 G.C. LovedayElectronic Testing & Fault

Diagonis

Longman scientific and

technical


32/40




COURSE CODE : ET/EJ/EN/EX/DE/IE/IC/IS/EV/MU/ED/EI/IU

SEMESTER : FIFTH FOR ET/EJ/EN/EX/DE/IE/IC/IS/EV/MU AND SIXTH

FOR ED/EI/IU

SUBJECT TITLE : PROFESSIONAL PRACTICES-V




TH TU PRPAPER


-- -- 03 -- -- -- -- 50@ 50

Rationale:

Most of the diploma holders join industries. Due to globalization and competition in the

industrial and service sectors the selection for the job is based on campus interviews or competitive

tests.

While selecting candidates a normal practice adopted is to see general confidence, attitude

and ability to communicate and attitude, in addition to basic technological concepts.

The purpose of introducing professional practices is to provide opportunity to students to

undergo activities which will enable them to develop confidence. Industrial visits, expert lectures,

seminars on technical topics and group discussion are planned in a semester so that there will be

increased participation of students in learning process.

Objectives:

The student will be able to:

1. Acquire information from different sources.2. Prepare notes for given topic.3. Present given topic in a seminar.4. Interact with peers to share thoughts.5. Prepare a report on industrial visit, expert lecture.


33/40



Learning Structure:

Application

Procedure

Concept

Facts

Sr.

No.Activity

Use systems approach for writing report on Industrial visits and make a

summary of expert lectures

Method of presenting

report on industrial visit

Technique of effective

listening and preparing a

summary

Concept of observation Principles of listening

Industry Visit Expert Lectures


34/40



01

Structured industrial visits shall be arranged and report of the same should be

submitted by the individual student, to form a part of the term work.

Following are the suggested type of Industries/ Fields (Any three visits)

i) Data Acquisition Systemii) Sugar Mill, Paper Mill, Cement Industryiii) Satellite Earth Stationiv) Railway Station Control Roomv) Digital RPM Meter Manufacturing Unitvi) Industry where Digital Drives are usedvii) Digital Counters

02

The Guest Lecture/s from field/industry experts, professionals to be arranged (2

Hrs), minimum 2 nos. from the following or alike topics. Students should submit a

brief report on the guest lecture as part of Term Work

a) Emerging Technologyb) Peripheral Devicesc) Blue Tooth Technologyd) Energy Crisis and Alternative Energy Sourcese) Digital Invertorsf) Total Quality Managementg) Six Sigma

03

Information Search ,data collection and writing a report on the topic

a) CDMAb) GPSc) Manufacturing process of ICsd) WLL Technology

04

Group Discussion:

The students should discuss in group of six to eight students and write a brief report on

the same as a part of term work. The topic of group discussions may be selected by the

faculty members. Some of the suggested topics are -

05Seminar:Seminar topic should be related to the subjects of fifth semester Each student shall

submit a report of 5 to10 pages and deliver a seminar (Presentation time 10 minutes)


35/40




COURSE CODE : ET/EJ/EN/EX/IE/IC/IS/EV/DE/MU/ED/EI/IU

SEMESTER : FIFTH FOR ET/EJ/EN/EX/IE/IC/IS/EV/DE/MU AND SIXTH FOR

ED/EI/IU

SUBJECT TITLE : INDUSTRIAL PROJECT AND ENTREPRENEURSHIP

DEVELOPMENT




TH TU PRPAPER


01 01 02 -- -- -- -- 25@ 25

Notes:

1. One theory and one tutorial hour are for Entrepreneurship Development (EDP).

Twenty five marks for term work are for report prepared under EDP

2. Two practical hours are for industrial project

Content:

Part A) Industrial Project

Following activities related to project are required to be dealt with, during this semester.1. Form project batches & allot project guide to each batch. (Max. 4 students per batch)2. Each project batch should select topic / problem / work by consulting the guide & / or

industry. Topic / Problem / work should be approved by Head of department.

3. Each project batch should prepare action plan of project activities & submit the same torespective Guide

4. At the end of semester, each project batch should submit the action plan and abstract of theproject along with list of materials required if project involves fabrication or other facilities

required in other kinds of project.

5. Action Plan should be part of the project report.


36/40



Part B:EEnnttrreepprreenneeuurrsshhiipp DDeevveellooppmmeenntt

Rationale:

Globalization, liberalization & privatization along with revolution in Information

Technology, have thrown up new opportunities that are transforming lives of the masses. Talented

and enterprising personalities are exploring such opportunities & translating opportunities into

business ventures such as- BPO, Contract Manufacturing, Trading, Service sectors etc. The student

community also needs to explore the emerging opportunities. It is therefore necessary to inculcate

the entrepreneurial values during their educational tenure. This will help the younger generation in

changing their attitude and take the challenging growth oriented tasks instead of waiting for white-

collar jobs. The educational institutions should also demonstrate their uniqueness in the creation of

enterprising personalities in their colleges. This subject will help in developing the awareness and

interest in entrepreneurship and create employment for others.

Objectives:

Students will be able to

1) Identify entrepreneurship opportunity.2) Acquire entrepreneurial values and attitude.3) Use the information to prepare project report for business venture.4) Develop awareness about enterprise management.


37/40



Learning Structure:

Application

Procedure

Concepts and

Principles

Facts

A) Use basic concepts, principles & procedures related toentrepreneurship

B) To expose students to real problems faced by

entrepreneur preferably with the help of case study

- Information gathering foropportunity

-Product / ServiceFinalization as Business

Opportunity

-Project report preparation &Project execution

-Planning-Resources,

Enterprise,

Budgeting

-Study modern trendsin business

-Entrepreneurial Process- Information Gathering-Opportunity Identification-Formulation of Business

Plan

-Running Enterprisesuccessfully

-FinancialStatements, Budget

-Financial Resources

- Different Organization Structures of SSI- Product Specifications, Product Cycle, Business

Opportunities, Project Implementation


38/40



Contents: Theory

Chapter Name of the Topic Hours

01

Entrepreneurship, Creativity & Opportunities

1.1) Concept, Classification & Characteristics of Entrepreneur

1.2) Creativity and Risk taking.

1.2.1) Concept of Creativity & Qualities of Creative person.1.2.2) Risk Situation, Types of risk & risk takers.

1.3) Business Reforms.

1.3.1) Process of Liberalization.

1.3.2) Reform Policies.

1.3.3) Impact of Liberalization.

1.3.4) Emerging high growth areas.

1.4) Business Idea Methods and techniques to generate business idea.

1.5) Transforming Ideas in to opportunities transformation involves

Assessment of idea &Feasibility of opportunity SWOT Analysis

03

02

Information And Support Systems

2.1) Information Needed and Their Sources.

Information related to project, Information related to support system,

Information related to procedures and formalities

2.2) Support Systems

2.2.1 Small Scale Business Planning, Requirements.

2.2.2 Govt. & Institutional Agencies, Formalities

2.2.3 Statutory Requirements and Agencies.

03

03

Market Assesment

3.1) Marketing -Concept and Importance

3.2) Market Identification, Survey Key components

3.3) Market Assessment

02

04

Business Finance & AccountsBusiness Finance

4.1) Cost of Project

Sources of Finance Assessment of working capital Product costing Profitability Break Even Analysis Financial Ratios and Significance

Business Account

4.2) Accounting Principles, Methodology

1) Book Keeping2) Financial Statements3) Concept of Audit,

03


39/40



05

Business Plan & Project Report

5.1) Business plan steps involved from concept to commissioning-

Activity Recourses, Time, Cost

5.2) Project Report

1) Meaning and Importance

2) Components of project report/profile (Give list)

5.3) Project Apprisial1) Meaning and definition

2) Technical, Economic feasibility

3) Cost benefit Analysis

03

06

Enterprise Management And Modern Trends

6.1) Enterprise Management:

1) Essential roles of Entrepreneur in managing enterprise

2) Product Cycle: Concept And Importance

3) Probable Causes Of Sickness

4) Quality Assurance : Importance of Quality, Importance of

testing6.2) E-CommerceConcept and process

6.3) Global Entrepreneur

02

Total 16

Sr. No Assignments

1 Assess yourself-are you entrepreneur?

2 Prepare project report and study its feasibility

Learning Resources:

1) Books:

Sr.

NoAuthor Name Of Book Publisher

1J.S. Saini

B.S.Rathore

Entrepreneurship

Theory and PracticeWheeler Publisher

2E. Gorden

K.Natrajan

Entrepreneurship

DevelopmentHimalaya Publishing.

3

Preferred by Colombo

Plan Staff College for

Technician Education.

Entrepreneurship

DevelopmentTata Mc Graw Hill

4J.B.Patel

D.G.Allampally

A Manual on How to Prepare

a Project ReportEDI STUDY MATERIAL

Ahmadabad (Near Village

Bhat , Via Ahmadabad

Airport & Indira Bridge),

P.O. Bhat 382428 ,

Gujrat,India

5J.B.Patel

S.S.Modi

A Manual on Business

Opportunity Identification &

Selection

6S.B.Sareen

H. Anil Kumar

National Derectory of

Entrepreneur Motivator &

Resource Persons.


40/40


7Gautam Jain

Debmuni Gupta

New Initiatives in

Entrepreneurship Education

& Training

P.H. (079) 3969163,

3969153

E-mail :

[email protected]/olp

[email protected]

Website :

http://www.ediindia.org

8 P.C.JainA Handbook of New

Enterpreneurs

9 D.N.Awasthi , JoseSebeastian

Evaluation of

EnterpreneurshipDevelopment Programmes

10 V.G.PatelThe Seven Business Crisis &

How to Beat Them.

2) Video Cassettes

NO SUBJECT SOURCE

1Five success Stories of First Generation

Entrepreneurs

EDI STUDY MATERIAL

Ahmadabad (Near Village Bhat , Via

Ahmadabad Airport & Indira Bridge), P.O.

Bhat 382428 , Gujrat,India

P.H. (079) 3969163, 3969153

E-mail :

[email protected]/[email protected]

Website : http://www.ediindia.org

2Assessing Entrepreneurial

Competencies

3Business Opportunity Selection and

Guidance

4 Planning for completion & Growth

5Problem solving-An Entrepreneur Skill

GGlloossssaarryy::

IInndduussttrriiaall TTeerrmmss::

Terms related to finance, materials, purchase, sales and taxes.

Components of Project Report:

1. Project Summary (One page summary of entire project )2. Introduction (Promoters, Market Scope / requirement)3. Project Concept & Product (Details of product)4. Promoters (Details of all Promoters- Qualifications, Experience, Financial strength)5. Manufacturing Process & Technology6. Plant & Machinery Required7. Location & Infrastructure required8. Manpower (Skilled, unskilled )9. Raw materials, Consumables & Utilities10.Working Capital Requirement (Assumptions, requirements)11.Market ( Survey, Demand & Supply )12.Cost of Project, Source of Finance13.Projected Profitability & Break Even Analysis14.Conclusion.

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