VI Term & Model Questions

VI Term & Model Questions
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
6
96
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC307
Embedded Systems
75
30
RATIONALE:
Increasingly, embedded systems developers and system-on-chip designers select specific
microprocessor cores and a family of tools, libraries, and off-the-shelf components to quickly develop
embedded system-based products. A major processor in this industry is ARM. Since 1985, the ARM
architecture has become the most pervasive 32-bit architecture in the world. ARM processors are
embedded in products ranging from cell/mobile phones to automotive braking systems. A worldwide
community of ARM partners and third-party vendors has developed among semiconductor and
product design companies, including hardware engineers, system designers, and software developers.
This course has been to describe the operation of the ARM core from a product developer’s
perspective with a clear emphasis on its architecture by assuming no previous ARM experience.
OBJECTIVES:
•
On successful completion of the course, the students must be able to
•
Distinguish between CISC and RISC architecture
•
Understand the ARM design philosophy
•
Explain the ARM architecture and the pipeline structure
•
Describe the little and big endian methods of representation
•
Explain the Instruction sets of ARM processor.
•
Understand various operational modes in ARM processor
•
List the various exceptions
•
Develop an assembly level code for basic arithmetic primitive operations
•
Relate and distinguish between OS and RTOS in their functionality
•
Understand hard time and soft time RTOS
•
Explain multitasking, scheduling, ITC, and synchronization
•
Understand the functions in µC/OS – II
VI -
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DETAILED SYLLABUS
Major Divisions
UNIT I
: ARM ARCHITECTURE
UNIT II
: LPC2148 ARCHITECTURE - I
UNIT III
: LPC 2148 ARCHITECTURE - II
UNIT IV
: REAL TIME OPERATING SYSTEM
UNIT V
: µC/OS – II RTOS
UNIT – I ARM ARCHITECTURE
Introduction to ARM – ARM Processor Core – Comparison of various ARM families – ARM
Extensions: Thumb, Jazzelle, AMBA - Memory Model: Von Neumann and Harvard – ARM Core
Dataflow Model – ARM7 Architecture:ARM7TDMI – ARM7TDMI features – Variants in ARM7 –
ARM7 functional block diagram – ARM7 internal structure – ARM operating states – ARM
Registers: GPR, PC, CPSR,SPSR – ARM7 pipelining Memory and Memory interface – ARM
Instruction Set: Data processing instructions, Load and Store instructions, Branch instructions,
Coprocessor instructions.
UNIT – II LPC2148 ARCHITECTURE – I
ARM based Embedded Microcontroller – LPC 2148 Block Diagram and features – Pin
Connect Block – Memory Mapping – Description of PLL and VPB Divider – Description of
Vectored Interrupt Controller (VIC) – General Purpose Input/Output Unit: Features, Registers
(IODIR,IOPIN,IOSET,IOCLR), Programming software tools – Code Development flow chart:
Assembler, Compiler, Linker, Simulator and Programmer.
UNIT –III LPC 2148 ARCHITECTURE – II
LPC 2148 Timer: Features, Registers (TCR,CTCR,TC,PR,PC), UART: Features, Registers
(UTHR, UDLL and UDLM,ULCR,ULSR), I2C Features and Operating Modes, SPI Features, SSP
Features,
USB
Features
–
Analog
Interfacing:
ADC
Features,
ADC
Registers
(ADCR,ADGDR,ADSTAT,ADGSR,ADINTEN,ADDR), DAC Features and DAC Register – RTC
and PWM Features.
UNIT – IV REAL TIME OPERATING SYSTEM
Definition of RTOS – Comparison with general OS – Soft and Hard RTOS – Task –
Multitasking – Context Switching – Task States – Kernel – Non Preemptive Kernel – Preemptive
Kernel – Scheduler – Scheduling Algorithm – Task Priority (static and Dynamic) – Mutual Exclusion
– Semaphores – Inter Task Communication – Message Mail Boxes – Message Queues.
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UNIT – V µC/OS –II RTOS
Introduction – Features of µC/OS –II – Requirements of µC/OS –II - Support Devices for
µC/OS – II – File Structure in µC/OS –II – Functions of Task, Memory, Time, Message Queue,
Message Mail Box, Mutual Exclusion, Semaphore Management files and Core file – Initializing and
Starting of µC/OS –II - Creating a Task – Deleting a Task – Implementation of Scheduling in µC/OS
–II.
REFERENCE BOOKS:
1. Embedded Systems Architecture – Tammy Noergaard
2. ARM System Developer’s Guide – Andrew N.Sloss
3. ARM Architecture Reference Manual – David Seal
4. ARM System-on-Chip Architecture (2nd Edition) by Steve Furber
5. µC/OS – II The Real Time Kernel Jean J. Labrosse
6. Real Time Concepts for Embedded Systems – by Qing Li and Caroline Yao
7. Embedded / Real Time Systems : Concepts, Design and Programming by
Dr.K.V.K.K.Prasad
8. LPC 2148 User Manual
VI -
3
MODEL QUESTION PAPER - I
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Embedded Systems
Code
: M7EC307
PART- A
Note: Answer any 15 Questions.
15 x 1 = 15 Marks
1. Distinguish between RISC and CISC
2. Expand AMBA
3. How many switching state are there in ARM? Mention them.
4. What is the operating core processor of LPC2148 Microprocessor?
5. What is PCB?
6. How many general – purpose I/O pins are available in LPC2148.Mention the pin names.
7. What is the use of PLL?
8. What is a compiler?
9. How many timers are in LPC2148?
10. Mention the purpose of UTHR register?
11. Mention the various serial communication facilities available in LPC2148.
12. What is RTC? Mention its purpose.
13. What are the types of RTOS?
14. Define Kernel.
15. What is the function of a scheduler?
16. What is Semaphore?
17. Mention any two features of µC/OS – II.
18. Write the function for creating task in µC/OS – II.
19. Mention any two support devices for µC/OS – II.
20. How many user tasks can be handled by µC/OS – II?
PART- B
5 x 12 = 60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21A)Explain with neat diagram, explain the function of each block in ARM7 TDMI
(OR)
B)Explain about various load and store instructions in ARM
(12]
22 A) Explain LPC2148 block diagram
[12]
(OR)
B) i) Discuss about PLL in LPC2148
ii) Discuss about Memory mapping in LPC2148
23 A) Explain about the important registers associated with the timer function
[12]
[6]
[6]
[12]
(OR)
B) Explain about UART operation in detail
[12]
24 A) Explain any two types of scheduling algorithm in detail
(OR)
B) i) Explain about message Mail box
ii) Explain about message queues.
25 A) Explain any four memory management functions in µC/OS – II?
(OR)
B) Create two different tasks for addition and multiplication in µC/OS – II?
VI -
4
[12]
[12]
[12]
[12]
MODEL QUESTION PAPER - II
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Embedded Systems
Code
: M7EC307
PART- A
15 x 1 = 15 Marks
Note: Answer any 15 Questions. – All Questions carry equal marks
1. Expand TDMI.
2. How many ARM registers are available for user in ARM. Mention their names
3. How many exceptions are there in ARM?
4. What is the advantage of THUMB state?
5. What is the ON-CHIP RAM size in LPC2148?
6. What is the function of IODIR register?
7. What is the need for VPB divider?
8. How many interrupts can be categorized under vectored interrupts?
9. How many ADC channels are available in LPC2148 and mention their names.
10. Mention any two USB features.
11. How many registers are involved in DAC operation?
12. What is PWM? What is its use?
13. What is RTOS?
14. How many tasks states are there?
15. Define context switching.
16. What is multitasking?
17. Mention the kernel type used by µC/OS – II?
18. Write a function to delete a task in µC/OS – II?
19. Mention the name of subroutine used to start µC/OS – II. In which file it is available.
20. Give any two features of µC/OS – II
PART- B
5 x 12 = 60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A) Draw ARM core data flow model and explain
(OR)
B) i) Explain Von – Neumann and Harvard architecture
ii) Explain Pipe lining in ARM 7
[12]
[6]
[6]
22 A) i) Explain the function of VIC with block diagram
(OR)
B) i) Explain GPIO.
ii) Explain VPB divider
[12]
23 A) i) Explain the I2C operating modes in detail
(OR)
B) i) Explain the PWM operation in LPC 2148
[12]
24 A) i)What is kernel? Explain its types
[12]
[8]
[4]
[12]
(OR)
B) i) Explain the semaphore operation
ii)Explain task with task state diagram
[6]
[6]
25 A) i) Explain the file structure of µC/OS – II
(OR)
B) i) Explain how scheduling is implemented in µC/OS – II
VI -
5
[12]
[12]
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC308
Computer Hardware
and Networks
75
30
RATIONALE:
Maintaining and servicing the computers, laptops and peripherals are essential requirements of
the ECE students. The clear understanding of computer network devices and protocols are also taught
in this subject.
OBJECTIVES:
On completion of the following units of syllabus contents, the students can
•
Identify the major components that make up the system unit.
•
Understand the principle of operations of Keyboard, mouse and Displays.
•
Understand the technology of high quality multiple color graphic output devices like Laser,
MFP.
•
Know the use of diagnostic Software.
•
Identify the major components of Laptop.
•
Troubles shoot the problems in Laptop.
•
Understand the concept of data communication.
•
Discuss the advantages and disadvantages of different network topologies.
•
Compare different network classifications based on different category.
•
Know the use of different network devices.
•
Understand the different layers of OSI and their functions.
•
Compare different LAN protocols.
•
Identify the protocols used in TCP /IP and compare with OSI model.
•
Use of IP addressing and TCP/ IP protocols briefly.
DETAILED SYLLABUS
Major Divisions
UNIT I
: MOTHER BOARD COMPONENTS & MEMORY
STORAGE DEVICES
UNIT II
: PERIPHERALS LAPTOP AND COMPUTER MAINTENANCE
UNIT III
: NETWORK BASICS
UNIT IV
: NETWORK MODEL AND 802.X PROTOCOLS
UNIT V
: PROTOCOLS AND IP ADDRESSING
VI -
6
UNIT I MOTHERBOARD COMPONENTS AND MEMORY STORAGE DEVICES
INTRODUCTION:
Parts - Mother board, expansion slots, memory, power supply, drives and front panel and
rear panel connectors – Hardware, Software and Firmware.
PROCESSORS:
Architecture and block diagram of multicore Processor, Features of new processor(Definition
only)-chipsets (Concepts only)
BUS STANDARDS :
Overview and features of PCI, AGP, USB, PCMCIA, Processor BUS - High Speed
Bus.
PRIMARY MEMORY:
Introduction-Main Memory, Cache memory –DDR2- DDR3, RAM versions – 1TB RAM
– Direct RDRAM
SECONDARY STORAGE:
Hard Disk – Construction – Working Principle – Specification of IDE, Ultra ATA, Serial
ATA- HDD Partition - Formatting.
REMOVABLE STORAGE:
CD&DVD construction – reading & writing operations- CD-R,CD-RW-DVD-ROM,
DVD-RW- construction and working of DVD Reader / Writer.
Blue-ray: Introduction – Disc Parameters – Recording and Playback Principles – Solid state memory
devices
UNIT II PERIPHERALS LAPTOP AND COMPUTER MAINTENANCE
KEYBOARD AND MOUSE:
Keyboard: Signals – operation of membrane and mechanical keyboards– wireless
Keyboard. Mouse- types, connectors, operation of Optical mouse .
PRINTERS:
Introduction – Types of printers– Laser, MFP (Multi Function Printer) - Operation –
Construction
DISPLAYS :
Panel Displays– Principles of LED, LCD and TFT Displays.
MODEM:
Types-Working principle of Broadband modems (only USB).
SCANNER:
Types-Operation – scan resolution – scan modes.
LAPTOP:
Difference between laptop and desktop- Types of laptop – Block diagram – working principles–
configuring laptops and power settings .
LAPTOP COMPONENTS:
Adapter – Types, Battery –Types and basic problems, RAM– types, CPU – types,
Laptop Mother Board - block diagram, Laptop Keyboard.
BIOS:
BIOS functions – Cold and Warm booting – BIOS error codes – BIOS interrupts –
identification of different BIOS (AMI, AWARD BIOS) – BIOS Memory Assignments – BIOS
advance setup.
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7
POST:
Error, Beep Codes, Error messages, Post – Faults related to Hardware – Faults related to
Software.
DIAGNOSTIC SOFTWARE AND VIRUSES:
Computer Viruses – Precautions – Anti-virus Software – identify the signature of viruses
– Firewalls and latest diagnostic softwares.
UNIT III NETWORK BASICS :
DATA COMMUNICATION:
Components of a data communication – Data flow: Simplex – Half duplex – Full duplexNetworks – Network criteria – Types of Connections: Point to point – multipoint.Topologies: Star,
Bus, Ring, Mesh, Hybrid – Advantages and Disadvantages of each topology.
TYPES OF NETWORKS:
Need for computer Networks - LAN – MAN – WAN – CAN – HAN Internet – Intranet –
Extranet, Client-Server, Peer to Peer Networks.
TRANSMISSION MEDIA:
Characteristics of Transmission Media - Classification of transmission media- Guided –
Twisted pair – Coaxial – Fiber optics – Unguided – Radio waves – Infrared – Low Orbit satellite
(LOS) – VSAT – Cabling and Standards
NETWORK DEVICES:
Features and Concepts of Switches – Routers (Wired and Wireless) – Gateways
UNIT IV NETWORK MODEL AND 802.X PROTOCOLS
NETWORK MODEL:
Protocol definition - Standards - OSI Model – Layered architecture –Functions of all layers.
802.X PROTOCOLS :
Concepts and PDU format of CSMA/CD (802.3) – Token bus (802.4) –Token ring (802.5) –
Ethernet – Types of Ethernet (Fast Ethernet, gigabit Ethernet) – Comparison between 802.3, 802.4
and 802.5
FDDI: Frame format – Advantages and disadvantages of FDDI.
SWITCHING: Definition – Circuit switching – Packet switching – Message switching.
BLUETOOTH : Features – Architecture.
UNIT V PROTOCOLS AND IP ADDRESSING
OVERVIEW OF TCP / IP:
OSI & TCP/IP – Transport Layer Protocol – Connection Oriented and Connectionless
Services – Sockets - TCP & UDP.
NETWORK LAYER PROTOCOLS:
IP – Interior Gateway Protocols (IGMP, ICMP, ARP, RARP Concept only).
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8
IP ADDRESSING :
Dotted Decimal Notation –Subnetting & Supernetting – VLSM Technique- IPv6 (concepts
only)
APPLICATION LAYER PROTOCOLS:
FTP– Telnet – SMTP– HTTP – DNS – POP.
VOICE OVER IP: skype
TEXT BOOKS:
1. IBM PC and CLONES, B.Govindrajalu, Tata McGrawhill Publishers
2. The complete PC upgrade and Maintenance, Mark Minasi, BPB Publication
3. Troubleshooting, Maintaining and Repairing PCs, Stephen J Bigelow ,Tata McGraw Hill
Publication
4. Upgrading and repairing laptops, Scott Mueller, QUE Publication, Upgrading and
5. Data Communication and networking, Behrouz A.Forouzan, Tata Mc-Graw Hill, New Delhi
6. Data Communication and Computer Networks- Brijendra singh-PHI Learning Private
Limited,NewDelhi
REFERENCE BOOKS:
1. Computer Networks,Achyut Godbole,Tata Mc-Graw Hill -New Delhi
2. Principles of Wireless Networks– A unified
Approach, Kaveh Pahlavan and Prashant
Krishnamurty, Pearson Education, 2002.
VI -
9
MODEL QUESTION PAPER – I
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Computer Hardware and Networks
Code
: M7EC308
PART – A
15 x 1 = 15 Marks
Note : Answer any 15 Questions.
1. What is a Chipset?
2. Define: Direct RDRAM.
3. What is the Secondary Storage?
4. Give any two features of PCI.
5. Expand the term LED.
6. What are membrane and mechanical keyboard?
7. Define: BIOS.
8. List out the types of printers
9. State any two differences between LAN and WAN.
10. What are the basic components of Data communication?
11. Define topology.
12. What is a Gateway?
13. Mention the functions of application layer.
14. Expand the term CSMA/CD.
15. Define Switching.
16. Give any two disadvantages of FDDI.
17. Give an example for connection oriented Protocol.
18. Define Telnet.
19. What is Subnetting in network?
20. Expand the term IGMP.
PART – B
5 x 12 = 60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21.A) i) Explain in detail about the architecture of Multi core Processor with neat
diagram.
(OR)
B) i) Explain the Processor Bus.
ii) Explain the working principle of CD-R.
[12]
[6]
[6]
22. A)What is POST? List out the tests performed by POST
(OR)
B) Explain the working principle of modem.
[12]
23. A) i). Explain Network topologies with neat diagram.
ii) Explain about different Types of Networks
(OR)
B) i).Describe unguided transmission medium with suitable diagram
ii).Discuss Networking devices in detail
[6]
[6]
24 A) i). Explain in detail about OSI Reference model.
ii)Discuss about 802.X protocols.
[ OR]
B) i). Describe about FDDI and its Frame Formats.
ii). Explain the features of bluetooth
[6]
[6]
25 A) i). Discuss in brief about UDP and TCP.
ii). Describe IGMP and ICMP in detail.
[6]
[6]
[ OR]
B) i). Explain VLSM Technique with an example.
ii). Discuss in detail about (i) FTP (ii)HTTP (iii) POP
VI -
10
[12]
[6]
[6]
[6]
[6]
[6]
[6]
MODEL QUESTION PAPER – II
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Computer Hardware and Networks
Code
: M7EC308
PART – A
15 x 1 = 15 Marks
Note : Answer any 15 Questions. – All Questions carry equal marks
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
What is the other name of motherboard?
Define: BUS.
Define: processor.
What is the use of ultra ATA?
What is Multi Function Printer?
What is CMOS?
What are the types of error messages?
Give an example for anti-virus software.
What are Radio waves?
Define simplex.
Give any two networking devices.
List any two advantages of Mesh Topology.
Give suitable file formats for FDDI.
In communication networks which system uses the token passing technology?
Mention the types of Switching
What is OSI model?
What is a socket?
Define IP. Give example.
Expand the term ICMP.
Expand the term DNS
PART – B
5 x 12 = 60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A i) How will you format the hard disk?
ii) Explain the recording and playback principles of Blu-ray disc
(OR)
B. Discuss the format and version of DVD-ROM
22 A i) Explain in detail the working of Laser Printer .
ii) Write the working principle of LCD.
(OR)
B) Draw the block diagram of laptop motherboard and explain it.
23 A. i). Explain data flow of data communication with a neat diagram.
ii). Describe Client – Server and peer to peer network.
( OR)
B i).Discuss about twisted pair and coaxial cable in detail.
ii). Explain in detail about router and switch concepts.
24 A. i). Describe the concepts and PDU format of CSMA/CD.
ii). Discuss in brief about Ethernet with Types.
(OR)
B i). Describe Packet and Circuit Switching.
ii). Explain the architecture of blue tooth.
25 A i). Differentiate Connection oriented from Connectionless services.
ii). Discuss in detail about ARP and RARP.
( OR)
B i). Explain any three Application Layer protocols.
ii). Explain Subnetting and Supernetting in detail.
VI -
11
[6]
[6]
[12]
[6]
[6]
[12]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
[6]
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics &
Communication
5
80
COURSE
CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC406
Elective Theory – II Television
Engineering
75
30
RATIONALE:
The rationale behind introducing this subject is to make the students understand the
structure, working and all other relevant aspects of Television Engineering which has become an
integral part of Electronic media which is growing at an exponentially high rate all around the
world.
OBJECTIVES:
To understand monochrome TV transmitter and receiver
To understand principles of scanning
To study about TV standards
To study fundamentals of color TV
To learn about camera tube and its working.
To understand the working of picture tubes.
To learn about color TV transmitter
To Study about color TV receiver
To study about LED, LCD displays
To study fundamentals of CCTV
To learn HD TV and 3D TV
DETAILED SYLLABUS
Major Divisions
UNIT I
: TV FUNDAMENTALS
UNIT II
: CAMERA AND PICTURE TUBES
UNIT III
: TELEVISION TRANSMITTER
UNIT IV
: TELEVISION RECEIVER
UNIT V
: ADVANCED TELEVISION SYSTEMS
VI -
12
UNIT I TV FUNDAMENTALS:
T.V. FUNDAMENTALS:
MONOCHROME TV:
Basic block diagram of Monochrome TV transmitter and Receiver – Scanning
process – horizontal, vertical and sequential scanning – flicker – interlaced scanning (qualitative
treatment only) – need for synchronization – blanking pulses – Aspect ratio– Resolution – Types –
vertical and horizontal resolution – video bandwidth – composite video signal (CVS)– CVS for one
horizontal line – Definitions for Vertical sync pulse, Serrated vertical pulse, Equalizing pulse –
Positive & Negative modulation - TV Standards – List of Types of TV standards.
COLOR T.V. FUNDAMENTALS:
Additive mixing of colors – Types – color perception – Chromaticity diagram –
Definition for Luminance, Hue, Saturation and Chrominance.
UNIT II CAMERA AND PICTURE TUBES:
CAMERA TUBE:
Characteristics – Types of camera tube – working principle of Vidicon and Plumbicon camera
tube, CCD camera – Video processing of camera pick up signal – Block diagram and Principle of
working of color TV camera tube.
PICTURE TUBE :
Construction and working of Monochrome picture tube – screen phosphor – screen burn –
Aluminized screen – Types of color picture tubes -construction and working principle of Delta gun
and Trinitron Color picture tubes – Automatic degaussing
UNIT III TELEVISION TRANSMITTER:
Principles – Block diagram of Low level IF Modulated TV transmitter – Visual
Exciter –Aural Exciter – principle of working of CIN Diplexer – Block diagram of color TV
transmitter – color compatibility – PAL color coder –functional blocks and working of each block –
Merits and demerits of PAL system.
UNIT IV TELEVISION RECEIVERS:
Block diagram of Monochrome Receiver – functions of each block – Need for AGC –
Advantages of AGC – Video amplifier requirements – High frequency & Low frequency
compensation – Block diagram of PAL color Receiver – Need for sync separator – Basic sync
separator circuits – Vertical sync separation & Horizontal sync separation – AFC – Need for AFC –
Horizontal AFC – Hunting in AFC – Anti Hunt network
VI -
13
UNIT V: ADVANCED TELEVISION SYSTEMS
Principles of Flat panel display, Plasma display, LED & LCD display – Block diagram of a
digital color TV receiver – Remote control IR transmitter and receiver – closed circuit TV system (CCTV) –
Applications of CCTV – Telecine equipment – Digital CCD Telecine system – Block diagram of VCD Player –
Block diagram of DVD Player – Introduction to High definition TV (HDTV) & 3DTV.
REFERENCE BOOKS:
1.Monochrome TV Practice, Principles, Technology &servicing by R.R.Gulati-Second
Edition- New Age publishers-2004.
2. Monochrome & color TV by R.R.Gulati - New Age publishers -2003
3.TV &Video Engg. By A.M.Dhake – Second Edition TMH -2003
4.Color TV, Theory and practice – by S.P.Bali-TMH – 1994
5. Modern VCD-Video CD Player Introduction, servicing and troubleshooting by Manohar Lotia &
Pradeep Nair.
VI -
14
Model Question Paper – I
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Elective II - Television Engineering
Code
: M7EC406
PART – A
ANSWER ANY 15 QUESTIONS
15X1 =15 Marks
1. What is scanning?
2. What is meant by flicker?
3. Mention any two TV standards
4. What is the need for synchronizing pulses?
5. Mention the types of camera tube
6. What is automatic degaussing?
7. Define screen burn
8. What is meant by dark current.
9. What is high level modulation?
10. What is the use of visual exciter?
11. What is the use of CIN diplexer?
12. What is VSB filter?
13. Define AGC.
14. What is use of tuner section?
15. What is Anti hunt network?
16. What is a sync separator?
17. What is HDTV?
18. Mention any two types of display?
19. Give the merits of digital receiver.
20. What is CCTV?
PART – B
5X12 =60 Marks
Answer all Questions
21 A) Explain a Monochrome TV transmitter with block diagram.
[12]
(Or)
B) Explain horizontal and vertical scanning.
[12]
22 A) Explain the working of Videocon camera tube with a neat diagram.
(Or)
B) Explain the working of a Delta gun color picture tube.
[12]
[12]
23 A) Explain working of a PAL color coder with neat diagram.
(Or)
B) With a neat block diagram explain color TV transmitter.
[12]
24 A) Draw the block diagram of PAL color TV receiver and explain.
(Or)
B) Explain video amplifier circuit with high frequency and low frequency
Compensation.
[12]
25 A) Explain the Digital color TV receiver with block diagram.
(Or)
B) Explain the functions of a remote IR transmitter and IR receiver.
VI -
15
[12]
[12]
[12]
[12]
[12]
Model Question Paper – II
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Elective II - Television Engineering
Code
: M7EC406
PART – A
ANSWER ANY 15 QUESTIONS
15X1 =15 Marks
1. What is aspect ratio?
2. What is the need for blanking pulses?
3. Mention types of mixing of colors
4. What is meant by Hue?
5. What is a camera tube?
6. What is the advantage of aluminized screen?
7. What is a picture tube?.
8. Mention types of picture tube.
9. Define low level modulation.
10. What is a delay equalizer?
11. Mention one advantage of low level IF modulation.
12. What is the principle of a TV transmitter?
13. Expand EHT.
14. What is the use of HF and LF compensation?
15. Define AFC.
16. What is meant by hunting?
17. Give one advantage of plasma display.
18. Mention the applications of CCTV.
19. What is the need for Telecine system?
20. Mention advantages of DVD.
PART – B
5X12 =60 Marks
Answer all Questions
21 A) Explain with a neat diagram a Monochrome TV receiver
(or)
B) Explain about (1) chromaticity diagram (2) composite video signal.
[12]
22 A) Explain the construction and operation of Plumbicon camera tube.
(or)
B) Explain the working of monochrome picture tube.
[12]
23 A) Draw the block diagram of low level IF modulated transmitter and explain
(or)
B) Explain (1) Visual exciter (2) Aural exciter.
[12]
[12]
[12]
[12]
24 A) Draw the block diagram of Monochrome receiver and explain each block.
(or)
B) Explain the need for sync separator. Explain the basic sync separator circuit.
[12]
25 A) Explain the working of Digital CCD Telecine system.
(or)
B) Explain working of VCD player in playback mode with block diagram.
[12]
VI -
16
[12]
[12]
PROGRAMME
HOURS/WEE
K
TOTAL HOURS
VI
Diploma in Electronics &
Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC407
Elective Theory – II BioMedical Instrumentation
75
30
TERM
RATIONALE:
Recent advances in medical field have been fuelled by the instruments developed by the
Electronics and Instrumentation Engineers. Pacemakers, Ultrasound Machine CAT, Medical
diagnostic systems are few names which have been contributed by engineers. Now health care
industry uses many instruments which are to be looked after by instrumentation engineers. This
subject will enable the students to learn the basic principles of different instruments/equipment used
in the health care industry. The practical work done in this area will impart skill in the use, servicing
and maintenance of these instruments/equipment. Proficiency in this area will widen the knowledge
and skill of diploma holders in the field of biomedical instrumentation.
OBJECTIVES:
After learning this subject, the student will be able to understand about
•
The generation of Bio potential and its measurement using various Electrodes.
•
The measurement of Blood pressure.
•
The measurement of Respiration rate.
•
The principle of operation of ECG recorders
•
The principle of operation of EEG & EMG recorders
•
The working principle of Audio meter.
•
The principle of operation of pacemakers.
•
The basic principle of Dialysis.
•
The principle of operation of Endoscopy.
•
The working principle of telemetry.
•
The basic principle of Telemedicine.
•
The basic principle of various types of lasers.
•
The basic principle of CT Scanners.
•
The principle of operations of various Imaging techniques used in medical field.
•
The various method of accident prevention
VI -
17
DETAILED SYLLABUS
Major Divisions
UNIT I
: PHYSIOLOGICAL & CLINICAL MEASUREMENT
UNIT II
: BIO-MEDICAL RECODERS
UNIT III
: THERAPEUTIC INSTRUMENTS
UNIT IV
: BIO – TELEMETRY AND PATIENT SAFETY
UNIT V
: MODERN IMAGING TECHNIQUES
UNIT I PHYSIOLOGICAL & CLINICAL MEASUREMENT
Elementary ideas of cell structure, heart and circulatory system, control nervous system,
Musclo-skeletal system, Respiratory system Body temperature and reproduction system. Bio –
potential and their generation – resting and action potential – propagation of action potential.
Electrodes – Micro – Skin – surface – needle electrodes Measurement of Blood pressure (direct,
indirect) – instantaneous flow (Electro magnetic flow meter, ultrasonic blood flow meter) – blood pH
Measurement of Respiration rate – lung volume – heart rate – Temperature (body temperature & Skin
temperature) Chromatography, Photometry, Flurometry.
UNIT II BIO - MEDICAL RECORDERS:
Electro cardiograph (ECG) – Lead system – ECG electrodes – ECG amplifiers – ECG
recording units – analysis of ECG curves.
Nervous system – EEG recorder – 10-20 lead system – recording techniques – EEG wave types –
Clinical use of EEG – brain tumour Electro – myograph (EMG) – EMG waves – measurement of
conduction velocity – EMG recording techniques – Electro – radiograph (ERG) Audiometer –
principle – types – Basics audiometer working
UNIT III THERAPEUTIC INSTRUMENTS:
Cardiac pacemaker – classification – External pace makers – implantable pacemaker
– pacing techniques – programmable pacemaker – power source of implantable pacemakers (Hg
batteries, nuclear batteries, Lithium cells) Cardiac defibrillators – types – AC – DC defibrillators
Heart lung machine – Oxygenators – Blood pumps – peristaltic pump – Heart valves – Problems of
artificial heart valves. Dialysis – Hemo dialysis – peritoneal dialysis. Endoscopy – principle of
working and applications.
UNIT IV BIO – TELEMETRY AND PATIENT SAFETY:
Introduction – physiological – adaptable to bio – telemetry – components of a bio telemetry
system – application of telemetry in patient care – problems associated with implantable telemetry.
Fluid balance – electrolytic balance – acid base balance.
VI -
18
Physiological efforts of electric current – Micro and macro shock – leakage current – shock hazards
from electrical equipment.
Methods of Accident Prevention – Grounding – Double Insulation – Protection by low voltage –
Ground fault circuit interrupter – Isolation of patient connected parts – Isolated power distribution
system.
Safety aspects in electro surgical units – burns, high frequency current hazards,
Explosion hazards Telemedicine – Introduction – working – applications
UNIT V MODERN IMAGING TECHNIQUES:
LASER beam properties – block diagram – operation of CO2 and NDYag LASER
– applications of LASER in medicine . X ray apparatus – block diagram – operation – special
techniques in X-ray imaging – Tomogram – computerized Axial tomography – Ultrasonic imaging
techniques – Echo cardiography – Angiography – CT scanner - Magnetic resonance imaging
technique.
Reference Books:
1. Leslie Crom well – Fred.J. Weibell, Erich A.P Feither – Biomedical
Instrumentation and measurement, II edition.
2. B.R. Klin – Introduction to Medical E lectronics.
3. Kumara doss – Medical Electronics.
4. Jacobson and Webstar – Medicine and Clinical Engineering.
5. R. S. Khandpur – Handbook of Bio – Medical Instrumentation.
6. Dr. M. Arumugam – Bio Medical Instrumentation , Anuradha agencies, Publishers.
7. Introduction to Biomedical Instrumentation- Mandeep Singh- Printice Hall India 2010
VI -
19
Model Question Paper I
Term
Programme
Course
: VI
: Diploma in Electronics and Communication Engg
: Elective II - Bio-Medical Instrumentation
Time
Max Marks
Code
: 3 Hrs
: 75
: M7EC407
PART – A
ANSWER ANY 15 QUESTIONS
15X1 =15 Marks
1. Define action potential.
2. What is meant by respiration rate?
3. What is the use of electrodes?
4. Define pH.
5. State the purpose of RL electrode in ECG.
6. What do you mean by brain tumor.
7. What is an audiometer?
8. What is EMG test?
9. What is fibrillation?
10. Give the types of blood pump.
11. What is a cardiac pacemaker?
12. What is a hemodialyser?
13. Whish tissue has less percent of water content?
14. What is fluid balance?
15. What is biotelemetry?
16. Define macro shock.
17. Mention any two properties of laser beam.
18. What is electrocardiography?
19. State the application of computerized axial tomography.
20. What is angiography?
PART – B
5X12 =60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A i) Write short notes on micro electrode.
[12]
ii) Explain about the lung volume measurement.
(or)
B i) Discuss about direct method of blood pressure measurement.
[12]
ii) Explain about chromatographic technique for analyzing various constituents present
in blood samples.
22 A i) Analyze the waveforms obtained in ECG.
ii) Explain the working of ERG with neat block diagram.
(or)
B i) Explain the 10-20 lead system used in EEG with neat sketch.
ii) Explain about the basic block diagram of audiometer.
23 A i) Differentiate internal & external pacemaker.
ii) Discuss about operation of heart lung machine.
(or)
B i) Explain the working of dc defibrillator with a neat diagram.
ii) Briefly discuss about the working of endoscopy with a neat diagram.
24 A i) Explain the various components of biotelemetry.
ii) Explain in detail about the various methods of accident prevention.
(or)
B i) Explain the physiological effects of electrical current in detail.
ii) Write down the safety aspects in surgical unit.
25 A i) Explain the application of laser in medicine.
ii) Write briefly about ultrasonic imaging technique.
(or)
B i) Explain the working of a X- ray machine with block diagram.
ii) Explain the basic block diagram of Magnetic Resonance Imaging technique.
VI -
20
[12]
[12]
[12]
[12]
[12]
[12]
[12]
[12]
Model Question Paper II
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Elective II - Bio-Medical Instrumentation
Code
: M7EC407
PART A
Answer any 15 questions
15X1 =15Marks
1. What are the salts responsible for action and nesting potential?
2. What is blood PH?
3. What instrument is used to analysis the working of brain?
4. Define respiration rate and lung volume
5. What is speech audiometry?
6. Give one application of Audiometer?
7. What is fibrillation?
8. State one problem associated with implementable telementry.
9. What is the use of RL electrode in ECG?
10. What is macro shock? Enumerate the application of artificial heart valve.
11. Write short notes on telemedicine.
12. Trace a normal ECG waveform and range the salient points?
13. What do you meant by dialysis? And state various methods.
14. Show the different brain waves with their frequency
15. What do you mean by heart rate?.
16. Differentiate micro and macro shock.
17. What is Fluid balance?
18. List the various special techniques in X-ray imaging.
19. Mention any four medical application of LASER?
20. What is the application of computerised axial tomography?
PART – B
5X12 =60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A) Explain the different types of electrode used to measure bio potential.
OR
B)Draw the block diagram of Electromagnetic flow meter and explain its
construction and application w .r. t biomedical.
22 A) Draw the block diagram of ECG and explain its working.
OR
B)How conduction velocity muscle is measured.
23 A) What is a pace maker? List and explain the various power sources used
for implantable pace marker?
OR
B) Draw the block diagram of heart machine and explain its working.
[12]
[12]
[12]
[12]
[12]
[12]
24 A) List the various method of accident prevention and explain each.
OR
B) Draw the block diagram of Biotelementry system and explain.
[12]
25 A) Explain the operation of CO2 LASER.
[12]
OR
B). Explain the working of magnetic resonance using a block diagram.
VI -
21
[12]
[12]
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC408
Elective II - Electronic
System Design
75
30
RATIONALE:
In design of any simple circuit it is necessary to find the value of components used in the
circuits. this subject will make the students to understand the important specifications of various
components and selection of components to be used in design.
Objective
•
To understand to design of DC regulated power supply of various voltages with different
protection circuits
•
To understand the design of different types of amplifiers for various applications
•
To understand the use of various transducers and make use them
•
To design various systems using the analog data collected from transducers
•
To design various signal generator
•
To understand design of drivers for LED and Motors
•
To understand the use of microcontrollers for various application
DETAILED SYLLABUS
Major Divisions
UNIT I
: POWER SUPPLIES
UNIT II
: AMPLIFIER, VOLTAGE TO CURRENT AND CURRENT TO
VOLTAGE CONVERTER
UNIT III
:ADC,DAC,INSTRUMENTATIONAMPLIFIERANDTRANSDUCER
UNIT IV
: SIGNAL GENARATORS
UNIT V
: MICRO CONTROLLER BASED APPLICATIONS
UNIT I: DESIGN OF POWER SUPPLY
DC power supply with filters, regulators & protection circuits, Multi output and
variable power supply design
VI -
22
UNIT II DESIGN OF SMALL SIGNAL AMPLIFIERS:
Emitter follower, Darlington pair amplifiers with and without Bootstrapping, Two stage
direct coupled amplifiers. Design of audio power amplifier with drivers, Design of simple PA
systemVoltage to current converter, current to voltage converter.
UNIT III DATA ACQUISITION SYSTEM:
ADC, DAC, Design of Instrumentation amplifier with the bridge type transducer,
Temperature measurement,Design of Electronic voltmeter and ammeter, Display system.
UNIT IV DESIGN OF FUNCTION GENARATORS:
Design of AM signal using multiplier IC, AM signal demodulation using envelope
detector, Design of FM signal using VCO (using IC NE566).
UNIT V MICRO CONTROLLER BASED APPLICATIONS - HIGH VOLTAGE /
HIGH CURRENT DRIVER:
Circuit for Relay and motor control applications. Microcontroller based closed loop
system, security systems, scrolling display; Microcontroller based stepper motor control system.
REFERENCE BOOKS:
1. 1 N.C.Goyel, R.K.Khetan, A Monograph on Electronic s Design Principles, Khanna
Publishers
2. DC Power Supply Handbook, Agilent Technologies
3. The art of electronics by Paul Horowitz, and Hill, Cambridge University Press
4. Electronic Devices and circuits by David A.Bell, Oxford University Press
5. Electronic Devices and circuits by Theodore F Bogart Jr. , Pearson Edition
VI -
23
MODEL QUESTION PAPER – I
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Elective II - Electronic System Design
Code
: M7EC408
PART – A
ANSWER ANY 15 QUESTIONS
15X1 =15 Marks
1. List the building blocks of regulated power supply in sequence
2. What will be the voltage drop in full wave bridge rectifier, when the load is connected?
3. Mention the component used for identifying the over current in the power supply
4. What is meant by line regulation in regulated power supply
5. Define the term small signal amplifier
6. Which components are eliminated in direct coupled two stage amplifier compared to capacitor
coupled two stage amplifier
7. What is the advantage of using emitter follower circuit
8. What do you understand by the term Public Address System
9. What do you understand by the term DAS
10. Mention the necessity of I to V converter
11. In instrumentation amplifier, which of the operational amplifier is used
12. Which opamp circuit is used to measure very low voltage
13. Name the device which is used to get the demodulated signal
14. What is the relationship between bandwidth and frequency that is used to design the R and C
values in diode envelope detector
15. What is a function generator
16. Mention the disadvantages of a diode detector circuit
17. What is relay
18. Name the common microcontroller peripherals
19. What is the function of an ‘assembler’
20. What is the necessity for interfacing between microcontroller and its peripheral
PART – B
5X12 =60 Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A) An unregulated DC power supply provides a DC voltage that can vary between 18V
and 22V. Design a 15Voltege Zener Voltage regulator for a load having IL(min) =20mA
and IL(max) =120mA. Specify resistor and Zener diode including power ratings.
[12]
(or)
B) An unregulated power supply is fed from 230V, 50Hz ac source. The transformer rating
is 230/12V. The bridge rectifier is used with a filter capacitor of 1000µfd. Find the
voltage across the 2Kohm resistance connected across the supply.
VI -
24
[12]
22 A) Design an audio amplifier circuit using TBA 810 and explain the control procedures.
[12]
(or)
B) A common emitter amplifier has Vcc = 15V, RB = 75Kohm and RE =910ohm. The β of
the Silicon transistor is 100 and the load resistance is 600ohm. Find the voltage gain of
the circuit
[12]
23 A i) The logic levels used in a 4 bit R-2R ladder DAC are 1 level is+5V and 0 level is 0V.
Find the output voltage when the input is 10102
[6]
ii) Design a 4bit weighted resister DAC whose full scale output voltage is -10V when 0
level is0V and 1 level is +5V
[6]
(or)
B) Design an instrumentation amplifier with input voltages of +2V and +4V assuming all
the Resistance as 4Kohm find Vo.
[12]
[
[
24 A) Discuss the operation of VCO in FM demodulation. State the design issues
[12]
(or)
B i) Design a square/ triangular wave function generator using OP-amps to operate at a
frequency of 2KHz with the triangular wave having peak-peak value of 3V.
[6]
ii) Explain how envelope detection is working using diode detector
[6]
25 A) Discuss the application of microcontroller in the design of security system.
[12]
(or)
B) Design a driver circuit for relay as a current protection.
VI -
25
[12]
MODEL QUESTION PAPER – II
Term
: VI
Time
: 3 Hrs
Programme
: Diploma in Electronics and Communication Engg
Max Marks
: 75
Course
: Elective II - Electronic System Design
Code
: M7EC408
PART – A
ANSWER ANY 15 QUESTIONS
15X1 =15 Marks
1. Mention the difference between transformer and centre tapped transformer
2. Define voltage regulation of power supply
3. What value of current limiting resistor should be used to limit the maximum current to
0.5Amp
4. When the power supply is switched off, the indicating LED glows for some time. What is the
reason?
5. Which capacitor in amplifier circuit is larger. Why
6. What is the voltage gain of common collector amplifer
7. Draw the circuit diagram of the Darlington pair transistor circuit
8. What is the band width of the audio amplifier circuit
9. What is the advantage of R-2R ladder DAC over weighted summer DAC
10. Mention the various displays used in process industry
11. Draw the bridge circuit with a temperature sensor in one arm
12. Which circuit is used to select on of the channels in Data Acquisition System
13. What is the equation for computing the VCO free running carrier frequency for the FM
detector
14. What is the role of multiplier in design of AM signal
15. List few function generator ICs
16. What are the advantages of digital phase detectors over analog phase detector
17. What is drop out current in relays
18. Draw the internal block diagram of a typical microcontroller
19. List the types of relays
20. What are the advantages and limitations of a microcontroller
PART – B
5X12 =60Marks
Note: i)Answer all the questions choosing either ‘A’ or ‘B’ from each question.
ii)All Questions carry equal Marks.
21 A) Design a series voltage regulator with error amplifier to produce 12V DC and
IL(max) =40mA. The supply voltage Vs = 20V.
[12]
(or)
B) Describe in detail about source and load effects of power supply. Construct a test circuit
and write test procedures.
[12]
VI -
26
22 A) Explain in detail about the Public Address System components and procedure to install
PAS
[12]
(or)
B) A relay of 12V/200ohm is to be driven by a digital circuit by using Darlington pair
circuit.
The digital circuit could drive 400µA with +ve logic ‘1’ level. If β1 =100, find β2 =and
RC1.
[12]
23 A) Draw the block diagram of temperature measurement and display system with LM35
(or)
B) Design an Electronic Voltmeter for measuring in the range of 200mV; 2V and 20VDC.
Explain your design
[12]
24 A i) Discuss the blocks involved in design of a function generator.
[8]
ii) An AM signal is detected by a diode envelop detector whose R=10Kohm and
C=1000pF. If the modulation index is 30%, calculate the highest modulating frequency
that can bedetected without out distortion
[4]
(or)
B) Discuss in detail, the design of AM signal modulation and demodulation
[12]
25 A) With necessary instructions to initialize the interface, design a scrolling display to
message
“HELLO”. Explain the hardware requirements and driver circuits associated with the
design
[12]
(or)
B i) Write the instructions to control a stepper motor. Explain the steps involved.
ii) Discuss about the driver circuit used for high voltage relays
TERM
PROGRAMME
VI -
HOURS/WEEK
27
[6]
[6]
TOTAL HOURS
VI
Diploma in Electronics
& Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC314
Embedded Systems
Practical
75
35
ALLOCATION OF MARKS
PROGRAM WRITING
35 MARKS
DEBUGGING AND EXECUTION
30 MARKS
RESULT
5 MARKS
VIVA - VOICE
5 MARKS
TOTAL
75 MARKS
LIST OF EXPERIMENTS
1.
Write Simple Assembly Programs for
a. Addition b. Subtraction b. Multiplication d. Division
2.
Write Programs for
a. Bit Digital Output -LED Interface
b. 8 Bit Digital Inputs (Switch Interface)
3.
Write Programs for
a. 4 × 4 Matrix Keypad Interface
b. Buzzer Interface
c. Relay Interface
4.
Write a Program for character based LCD Interface
5.
Write a Program for Analog to Digital Conversion(On chip ADC)
6.
Write Programs for I2C Device Interface:
a. Serial EEPROM
b. Seven Segment LED Display Interface
c. Real Time Clock
7.
Interfacing With Temperature Sensor
8.
Stepper Motor Interface
VI -
28
Hands on Exercise Based on RTOS.
9
To Study and Implement Multitasking .Write a Simple Program with Two
Separate LED Blinking Tasks.
10.
Study and Implement Priority Scheduling and OS Time Delay Functions by writing 3
different UART Transmitting Tasks.
11.
Implement OS Real Time Multitasking by writing a multitasking program with the
tasks.
a. Interface RTC and Display on LCD First Line Continuously.
b. Interface ADC and Display on LCD Second Line Continuously.
12.
Implement OS Real Time Multitasking by implementing three tasks
a. Read the Key input and display on seven segment LED
b. Read the ADC Analog input and Plot the Corresponding signal on a
graphical LCD.
c. Generate a PWM signal with Xon Time and Yoff Time.
13.
Interface a Stepper motor and Control the speed of rotation by implementing RTOS
delay function.
VI -
29
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC315
Computer Hardware
and Networks Practical
75
35
RATIONALE:
The course aims at making the students familiar with various parts of computers and laptops
and how to assemble them and the different types of peripherals desired. In addition, the course will
provide the students with necessary knowledge and skills in computer and laptop software installation
and maintenance and to make him diagnose the software faults. This subject also gives the knowledge
and competency to diagnose the problems in computer hardware and peripherals and also gives the
knowledge for trouble shooting for systematic repair and maintenance of computers and laptops
OBJECTIVES:
On completion of the following exercises, the students must be able to
•
Know the various indicators, switches and connectors used in Computers.
•
Familiarize the layout of SMPS, motherboard and various Disk Drives.
•
Configure Bios set up options.
•
Install various secondary storage devices with memory partition and formatting.
•
Know the various types of printer installation and to handle the troubleshooting ability.
•
Acquire the practical knowledge about the installation of various devices like scanner, web
camera, cell phone and bio-metric devices.
•
Assemble PC system and checking the working condition.
•
Identify the problems in Computer systems, software installation and rectification also.
•
Assembling and disassembling of Laptop to identify the parts and to install OS and configure
it.
•
Enable to perform different cabling in a network.
•
Configure Internet connection and use utilities to debug the network issues.
•
Configure router for any topology
ALLOCATION OF MARKS
VI -
30
Allocation of marks for End Practical Examination
I) Theory
II) Algorithm
III) Execution
IV) Result
V) Viva – Voce
- 10 Marks
- 25 Marks
- 30 Marks
- 5 Marks
- 5 Marks
--------------- 75 Marks
--------------
Total
COMPUTER HARDWARE AND NETWORKS PRACTICAL – REQUIREMENTS
PART A – COMPUTER SERVICING PRACTICAL
1.
2.
Hardware Requirements :
• Computer with Pentium / Core processors with add on cards – 20 Nos
• Hard disk drive
- 06 Nos
• CD Drive
- 06 Nos
• DVD Writer
- 06 Nos
• Blank DVD
- 50 Nos
• Blank Blu-ray disk
- 50 Nos
• Laser Printer
- 06 Nos
• Digital Camera
- 02 Nos
• Web Camera
- 02 Nos
• Scanner
- 02 Nos
• Blue tooth device and cell phone
- 02 Nos
• Bio-metric device
- 02 Nos
• Laptop
- 18Nos
Software Requirements:
• Windows XP operating system
• Disk Manager (for the purpose of partition and format)
• Norton or E-Trust Antivirus software
• Scandisk
• DVD Writer S/W
• CD Burning S/W (Ahead Nero or latest S/W)
• Blu-ray Burning S/W
PART B – COMPUTER NETWORKS PRACTICAL
Tools Requirement
1.
• Crimping Tool
• Network Cables
Equipment Requirement
2.
• Modem
• Laser Printer
• Hub
• Router
• Switch
3.
System Requirement
• Pentium Systems
with on board Ethernet Card (NIC)
Software Requirement
4.
• Windows 2000 or 2003 .
• OS Windows XP with service pack
• Drivers Software
VI -
31
- 06 Nos
- 01 No
- 01 No
- 01 No
- 01 No
- 01 No
- 18 Nos
LIST OF EXERCISES
PART A: COMPUTER SERVICING PRACTICALS
1. Identification of System Layout.
Front panel indicators & switches and Front side & rear side connectors.
Familiarize the computer system Layout: Marking positions of SMPS, Motherboard, FDD, HDD,
CD, DVD and add on cards.
Configure bios setup program and troubleshoot the typical problems using BIOS utility.
2. Hard Disk
Install Hard Disk.
Configure CMOS-Setup.
Partition and Format Hard Disk.
Identify Master /Slave / IDE Devices.
Practice with scan disk, disk cleanup, disk De-fragmenter, Virus Detecting and
Rectifying Software
3. a) Install and Configure a DVD Writer and a Blu-ray Disc writer.
b) Recording a Blank DVD and Blu-ray Disc.
4. Printer Installation and Servicing:
a) Install and configure Laser printer
b) Troubleshoot the above printer.
c) Check and connect the data cable connectivity
5.Install and configure Scanner, Web cam, Cell phone and bio-metric device with system.
Troubleshoot the problems
6.Assemble a system with add on cards and check the working condition of the system and install OS.
7. Assembling and Disassembling of Laptop to identify the parts and to install OS and configure it
PART-B COMPUTER NETWORKS PRACTICAL
8. Do the following Cabling works in a network
a) Cable Crimping b) Standard Cabling c) Cross Cabling
d) IO connector crimping
e) Testing the crimped cable using a cable tester
9.Configure Host IP, Subnet Mask and Default Gateway in a system in LAN (TCP/IP Configuration).
Configure Internet connection and use IPCONFIG, PING / Tracert and Netstat utilities to debug the
network issues
VI -
32
10.Interface two PCs using Peer To Peer network using connectivity devices – Switch in a LAN
and share the Drives and Folders.
11.Transfer files between systems in LAN using FTP Configuration, install Print server in a LAN and
share the printer in a network.
12.Configure DNS to establish interconnection between systems and describe how a name is mapped
to IP Address
13. Install and configure Network Devices: HUB, Switch and Routers.
14.Install and Configure NIC and transfer files between systems in LAN .
15. Wire shark tool usage connect two PCs to a HUB ,SWITCH,ROUTER and observe the
difference.
VI -
33
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
5
80
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC409
Simulation Practical
75
35
OBJECTIVE:
To design and verify the results of various electronic circuits using simulation software and
verify the result in the computer
LIST OF EXPERIMENTS
SIMULATION PRACTICAL
Note:
All experiments should be designed and verified through SPICE simulation tool (like PSPICE
/Multi sim/ Lab VIEW/ ORCAD/ TINA)
1. Study of simulation software features using simple circuits
2. Rectifier Circuits (Half wave, full wave and bridge rectifiers with filters)
3. Power supply design with regulators
4. Waveform generators using transistors (Astable multivibrators)
5. Waveform generators using transistors (mono stable multivibrators)
6. Clippers and Clampers
7. Op-amp applications – I (any three circuits)
(Inverting and non-inverting amplifiers, voltage follower, integrator,
Differentiator, summing amplifier, difference amplifier)
8. Op-amp applications – II (any three circuits)
(Hartley and phase shift oscillators, sine, square and triangular waveform
generators,
precision rectifiers )
9. Instrumentation amplifiers
10. AM Modulation and Demodulation
11. FM Modulation and Demodulation
12. ASK Modulation and Demodulation
13. FSK Modulation and Demodulation
14. PSK Modulation and Demodulation
15. Single side PCB layout design using CAD tool
Drawing the schematic of simple electronic circuit and design of PCB layout
using CAD tool.
16. Multilayer PCB layout design using CAD tool.
VI -
34
TERM
PROGRAMME
HOURS/WEEK
TOTAL HOURS
VI
Diploma in Electronics
& Communication
4
64
COURSE CODE
COURSE NAME
MAX.MARKS
MIN.MARK FOR
PASS
M7EC316
Project Work
75
35
OBJECTIVES:
•
•
•
•
•
•
Implement the theoretical and practical knowledge gained through the curriculum into an
application suitable for a real practical working environment preferably in an industrial
environment
Get exposure on industrial environment and its work ethics.
Understand what entrepreneurship is and how to become an entrepreneur.
Learn and understand the gap between the technological knowledge acquired through
curriculum and the actual industrial need and to compensate it by acquiring additional
knowledge as required.
Carry out cooperative learning through synchronous guided discussions within the class in key
dates, asynchronous document sharing and discussions, as well as to prepare collaborative
edition of the final project report.
Understand the facts and importance of environmental management.
Understand and gain knowledge about disaster management
a) Internal assessment mark for Project Work:
Project Review I & II (VI Term) (5+5)
:
10 marks
Project Report
:
10 marks
Attendance
:
5 marks
------------
TOTAL
:
25 marks
------------
b) Mark Allocation for Project Work in End Examination
Viva Voce
:
25 marks
Demonstration / Presentation
:
20 marks
------------
TOTAL
:
45 marks
-------------
c) Written Test Mark (from 3 topics for 1 hour duration):
a) Entrepreneurship
5 questions x 2 marks
:
10 marks
b) Environment Management 5 questions x 2 marks
:
10 marks
c) Disaster Management
:
10 marks
5 questions x 2 marks
-----------TOTAL
:
30 marks
------------
Total (b + c) =
VI -
35
75 marks
DETAILED SYLLABUS
ENTREPRENEURSHIP, ENVIRONMENTAL & DISASTER MANAGEMENT
1. ENTREPRENEURSHIP
1.1
Introduction – Entrepreneur - characteristics of Entrepreneur - contributions of an
Entrepreneur - functions of entrepreneur - Barriers to entrepreneurship - Roll of
government in Entrepreneurial development.
1.2
Small scale industries (SSI) - SSI role in country’s economic growth – importance of SSI starting of an SSI - Government organization and Non-governmental organizations
supporting SSI - DIC,NSIC,SIDO,KVIC, Development banks and their objectives - role
of commercial banks in assisting SSI - Women entrepreneurs and opportunities – Subsidy
and concessions to Small Scale Industries.
2. ENVIRONMENTAL MANAGEMENT
2.1
Introduction – Environmental Ethics – Assessment of Socio Economic Impact –
Environmental Audit – Mitigation of adverse impact on Environment – Importance of
Pollution Control – Types of Industries and Industrial Pollution.
2.2
Solid waste management – Characteristics of Industrial wastes – Methods of Collection,
transfer and disposal of solid wastes – Converting waste to energy – Hazardous waste
management Treatment technologies.
2.3
Waste water management – Characteristics of Industrial effluents – Treatment and
disposal methods – Pollution of water sources and effects on human health.
2.4
Air pollution management – Sources and effects – Dispersion of air pollutants – Air
pollution control methods – Air quality management.
2.5
Noise pollution management – Effects of noise on people – Noise control methods.
3. DISASTER MANAGEMENT
3.1
Introduction – Disasters due to natural calamities such as Earthquake, Rain, Flood,
Hurricane, Cyclones etc – Man made Disasters – Crisis due to fires, accidents, strikes etc
– Loss of property and life..
3.2
Disaster Mitigation measures – Causes for major disasters – Risk Identification – Hazard
Zones – Selection of sites for Industries and residential buildings – Minimum distances
from Sea – Orientation of Buildings – Stability of Structures – Fire escapes in buildings Cyclone shelters – Warning systems.
3.3
Disaster Management – Preparedness, Response, Recovery – Arrangements to be made in
the industries / factories and buildings – Mobilization of Emergency Services - Search and
Rescue operations – First Aids – Transportation of affected people – Hospital facilities –
Fire fighting arrangements – Communication systems – Restoration of Power supply –
Getting assistance of neighbors / Other organizations in Recovery and Rebuilding works –
Financial commitments – Compensations to be paid – Insurances – Rehabilitation.
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36
LIST OF QUESTIONS
1. ENTREPRENEURSHIP
1. Define the term Entrepreneur.
2. What is Entrepreneurship? Explain.
3. List the various stages of decisions an entrepreneur has to make before reaching the goal of his
project.
4. What is innovation?
5. State briefly the role of an entrepreneur in the economic growth of a country.
6. List the characteristics of an Entrepreneur.
7. What are the critical elements of an Entrepreneur?
8. State the major functions of an Entrepreneur.
9. What are barriers to Entrepreneurship?
10. Define Small Scale Industry.
11. What are the qualities of Entrepreneur?
12. What are the benefits of Entrepreneur?
13. What are the various SSI that can flourish in your district?
14. Identify the infrastructural needs for an industry.
15. What are the various agencies involved in the establishment and development of various SSI?
16. Name some of the agencies funding SSI.
17. Explain the roles played by Government in Entrepreneural development.
18. What are the various concessions and incentives available for a SSI.
19. Name some consumer products with wide demand that can be manufactured by a SSI?
20. What is feasibility study?
21. What is the importance of SSI?
22. What is DIC? State its functions.
23. What is NSIC? State its functions.
24. What is SIDO? State its functions.
25. Name the Development Banks in India working towards Entrepreneurial
development.
26. State the role of commercial bank in assisting SSI sector.
27. What are the different phases of Entrepreneurial Development programme?
28. What is an Industrial Estate?
29. What are the facilities available in an Industrial Estate?
30. Identify the various training agencies associated with SSI.
31. List the governmental agencies from whom you shall get financial assistance for a SSI.
32. What is KVIC? State its objectives.
33. Name some state finance corporations.
34. What are the steps involved in preparing a feasibility report?
35. What are the factors to be considered regarding raw materials for a SSI?
36. What are the features of a SSI?
37. What are the advantages of becoming an Entrepreneur?
38. Name the Organizations offering assistance for the development of Women entrepreneurs.
39. State the business opportunities for Women entrepreneurs.
40. State the different subsidies given to SSI’s.
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37
2. ENVIRONMENTRAL MANAGEMENT
1.What is the responsibility of an Engineer-in-charge of an Industry with respect to Public Health?
2.Define Environmental Ethic.
3.How Industries play their role in polluting the environment?
4.What is the necessity of pollution control? What are all the different organizations you know, which
deal with pollution control?
5.List out the different types of pollutions caused by a Chemical / Textile / Leather / Automobile /
Cement factory.
6.What is meant by Hazardous waste?
7.Define Industrial waste management.
8.Differentiate between garbage, rubbish, refuse and trash based on their composition and source.
9.Explain briefly how the quantity of solid waste generated in an industry could be reduced.
10.
What are the objectives of treatments of solid wastes before disposal?
11.
What are the different methods of disposal of solid wastes?
12.
Explain how the principle of recycling could be applied in the process of waste minimization.
13.
Define the term ‘Environmental Waste Audit’.
14.
List and discuss the factors pertinent to the selection of landfill site.
15.
Explain the purpose of daily cover in a sanitary landfill and state the minimum desirable depth
of daily cover.
16.
Describe any two methods of converting waste into energy.
17.
What actions, a local body such as a municipality could take when the agency appointed for
collecting and disposing the solid wastes fails to do the work continuously for number of days?
18.
Write a note on Characteristics of hazardous waste.
19.
What is the difference between municipal and industrial effluent ?
20.
List few of the undesirable parameters / pollutants anticipated in the effluents from oil refinery
industry / thermal power plants / textile industries / woolen mills / dye industries / electroplating
industries / cement plants / leather industries (any two may be asked)
21.
Explain briefly the process of Equalization and Neutralization of waste water of varying
characteristics discharged from an Industry.
22.
Explain briefly the Physical treatments “Sedimentation” and “Floatation” processes in the waste
water treatment.
23.
Explain briefly when and how chemical / biological treatments are given to the waste water.
24.
List the four common advanced waste water treatment processes and the pollutants they
remove.
25.
Describe refractory organics and the method used to remove them from the effluent.
26.
Explain biological nitrification and de-nitrification.
27.
Describe the basic approaches to land treatment of Industrial Effluent.
28.
Describe the locations for the ultimate disposal of sludge and the treatment steps needed prior to
ultimate disposal.
29.
List any five Industries, which act as the major sources for Hazardous Air Pollutants.
30.
List out the names of any three hazardous air pollutants and their effects on human health.
31.
Explain the influence of moisture, temperature and sunlight on the severity of air pollution
effects on materials.
32.
Differentiate between acute and chronic health effects from Air pollution.
33.
Define the term Acid rain and explain how it occurs.
34.
Discuss briefly the causes for global warming and its consequences
35.
Suggest suitable Air pollution control devices for a few pollutants and sources.
36.
Explain how evaporative emissions and exhaust emissions are commonly controlled.
VI -
38
37.
What are the harmful elements present in the automobile smokes? How their presence could be
controlled?
38.
What is the Advantage of Ozone layer in the atmosphere? State few reasons for its destruction.
39.
Explain the mechanism by which hearing damage occurs.
40.
List any five effects of noise other than hearing damage.
41.
Explain why impulsive noise is more dangerous than steady state noise.
42.
Explain briefly the Source – Path – Receiver concept of Noise control.
43.
Where silencers or mufflers are used ? Explain how they reduce the noise.
44.
Describe two techniques to protect the receiver from hearing loss when design / redress for
noise control fail.
45.
What are the problems faced by the people residing along the side of a railway track and near to
an Airport? What provisions could be made in their houses to reduce the problem?
3. DISASTER MANAGEMENT
1.
What is meant by Disaster Management? What are the different stages of Disaster management?
2.
Differentiate Natural Disasters and Man made Disasters with examples.
3.
Describe the necessity of Risk identification and Assessment Surveys while planning a project.
4.
What is Disasters recovery and what does it mean to an Industry?
5.
What are the factors to be considered while planning the rebuilding works after a major disaster
due to flood / cyclone / earthquake? (Any one may be asked)
6.
List out the public emergency services available in the state, which could be approached for
help during a natural disaster.
7.
Specify the role played by an Engineer in the process of Disaster management.
8.
What is the cause for Earthquakes? How they are measured? Which parts of India are more
vulnerable for frequent earthquakes?
9.
What was the cause for the Tsunami 2004 which inflicted heavy loss to life and property along
the coast of Tamilnadu ? Specify its epicenter and magnitude.
10.
Specify the Earthquake Hazard Zones in which the following towns of Tamilnadu lie:
Chennai (b) Nagapattinam (c) Coimbatore (d) Madurai (e) Salem.
11.
Which parts of India are experiencing frequent natural calamities such as (a) heavy rain fall (b)
huge losses due to floods (c) severe cyclones
12.
Define basic wind speed. What will be the peak wind speed in (a) Very high damage risk zone
– A, (b) High damage risk zone, (c) Low damage risk zone
13.
Specify the minimum distance from the Sea shore and minimum height above the mean sea
level, desirable for the location of buildings.
14.
Explain how the topography of the site plays a role in the disasters caused by floods and
cyclones.
15.
Explain how the shape and orientation of buildings could reduce the damages due to cyclones.
16.
What is a cyclone shelter? When and where it is provided? What are its requirements?
17.
What Precautionary measures have to be taken by the authorities before opening a dam for
discharging the excess water into a canal/river?
18.
What are the causes for fire accidents? Specify the remedial measures to be taken in buildings to
avoid fire accidents.
19.
What is a fire escape in multi-storeyed buildings? What are its requirements?
20.
How the imamates of a multi-storey building are to be evacuated in the event of a fire/Chemical
spill/Toxic Air Situation/ Terrorist attack, (any one may be asked).
21.
Describe different fire fighting arrangements to be provided in an Industry.
22.
Explain the necessity of disaster warning systems in Industries.
VI -
39
(a)
23.
Explain how rescue operations have to be carried out in the case of collapse of buildings due to
earthquake / blast / Cyclone / flood.
24.
What are the necessary steps to be taken to avoid dangerous epidemics after a flood disaster?
25.
What relief works that has to be carried out to save the lives of workers when the factory area is
suddenly affected by a dangerous gas leak / sudden flooding?
26.
What are the difficulties faced by an Industry when there is a sudden power failure? How such a
situation could be managed?
27.
What are the difficulties faced by the Management when there is a group clash between the
workers? How such a situation could be managed?
28.
What will be the problems faced by the management of an Industry when a worker dies because
of the failure of a mechanical device due to poor maintenance? How to manage such a
situation?
29.
What precautionary measures have to be taken to avoid accidents to labourers in the Industry in
a workshop / during handling of dangerous Chemicals / during construction of buildings /
during the building maintenance works.
30.
Explain the necessity of medical care facilities in an Industry / Project site.
31.
Explain the necessity of proper training to the employees of Industries dealing with hazardous
products, to act during disasters.
32.
What type of disaster is expected in coal mines, cotton mills, Oil refineries, ship yards and gas
plants?
33.
What is meant by Emergency Plan Rehearsal? What are the advantages of such Rehearsals?
34.
What action you will take when your employees could not reach the factory site because of
continuous strike by Public Transport workers?
35.
What immediate actions you will initiate when the quarters of your factory workers are
suddenly flooded due to the breach in a nearly lake / dam, during heavy rain?
36.
What steps you will take to avoid a break down when the workers union of your Industry have
given a strike notice?
37.
List out few possible crisis in an organization caused by its workers? What could be the part of
the middle level officials in managing such crisis?
38.
What types of warning systems are available to alert the people in the case of predicted
disasters, such as floods, cyclone etc.
39.
Explain the necessity of Team work in the crisis management in an Industry / Local body.
40.
What factors are to be considered while fixing compensation to the workers in the case of
severe accidents causing disability / death to them?
41.
Explain the legal / financial problems the management has to face if safely measures taken by
them are found to be in adequate.
42.
Describe the importance of insurance to men and machinery of an Industry dealing with
dangerous jobs.
43.
What precautions have to be taken while storing explosives in a match/ fire crackers factory?
44.
What are the arrangements required for emergency rescue works in the case of Atomic Power
Plants?
45.
Why residential quarters are not constructed nearer to Atomic Power Plants?
*************
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