LESSON PLAN20 Caulking and fullering of riveted joints 21 Types of riveted joints (i) Lap joint-Single riveted, double riveted (chain and zig-zag type) (ii) Single riveted, Single

LESSON PLAN

Name of Faculty : Guest Faculty (THEORY) & SH. NARSINGH PARMAR (PRACTICAL)

Discipline :Computer Engg.

Semester : 2nd

Subject : BEE

Work Load : THEORY -03, PRACTICAL -2

Week Theory Week Practicals

(Including Assignments and Tests) Topic

1 Concept of electricity, various applications of electricity, advantages of

electricity over other types of energy

G-1 Familiarization of measuring instruments viz

voltmeter, ammeter, CRO, Wattmeter and

multi-meter and other accessories

2 Definition- voltage, current, potential difference, power, energy and their

units.

G-2 Familiarization of measuring instruments viz

voltmeter, ammeter, CRO, Wattmeter and

multi-meter and other accessories

3 Oh ’s la a d its pra ti al appli atio s, o epts of resista e, conductance, resistivity and their units,

4 Effect of temperature on resistance, temperature coefficient of

resistance

G-1 Verifi atio of oh ’s la

5 Series and parallel combination of resistors, wattage consideration,

simple

G-2 Verifi atio of oh ’s la

6 Kir hhoff’s urre t la a d Kir hhoff’s oltage la a d their appli atio s to simple circuits

7 Conversion of electrical circuits from Star to Delta and Delta to Star. G-1 To measure (very low) resistance of an

ammeter and (very high) resistance of a

voltmeter

8 Conversion of electrical circuits from Star to Delta and Delta to Star. G-2 To measure (very low) resistance of an

ammeter and (very high) resistance of a 9 The e i ’s theore , Norto ’s theore , super positio theore , maximum power transfer theorem

10 The e i ’s theore , Norto ’s theore , super positio theore , maximum power transfer theorem

G-1 To verify in d.c circuits:

a.. The e i ’s theore ,11 The e i ’s theore , Norto ’s theore , super positio theore ,

maximum power transfer theorem

G-2 To verify in d.c circuits:

a.. The e i ’s theore ,12 The e i ’s theore , Norto ’s theore , super positio theore ,

maximum power transfer theorem

13 Application of network theorems in solving d. c circuit problems. G-1 . Norto ’s theore ,14 Application of network theorems in solving d. c circuit problems. G-2 . Norto ’s theore ,15 Concept of voltage sources- symbol, graphical representation and

characteristics of constant/ ideal and practical sources.

4

5

4

5

Practical

Day

11

2

3

2

3

Lecture

day

16 Concept of current sources- symbol, graphical representation and

characteristics of constant/ideal and practical current sources.

G-1 c. Super position theorem,

17 Basic idea about primary and secondary cells G-2 c. Super position theorem,

18 Construction, working and applications of Lead-Acid battery, Nickel-

Cadmium cell and Silver-Oxide cells

19 Concepts of magnetic field produced by flow of current, Magnetic circuit,

concept

G-1 d. Maximum power transfer theorem,

20 magneto-motive force (MMF), flux, reluctance, permeability, G-2 d. Maximum power transfer theorem,

21 analogy between electric and magnetic circuit.

22 Faraday’s la s of ele tro- ag eti i du tio , pri iples of self a d mutual induction

G-1 To observe change in resistance of a bulb in

hot and cold conditions, using voltmeter and

ammeter.

23 self and mutually induced e.m.f, simple numerical problems. G-2 To observe change in resistance of a bulb in

hot and cold conditions, using voltmeter and

ammeter.

24 Concept of current growth, decay and time constant in an inductive (RL)

circuit.

25 Energy stored in an inductor, series and parallel combination of

inductors.

G-1 Verification of Kirchhoff's Current Law and

Kirchhoff's Voltage Law in a dc circuit

26 Concept of alternating voltage and current G-2 Verification of Kirchhoff's Current Law and

Kirchhoff's Voltage Law in a dc circuit

27 Difference between a.c and d.c

28 Concept of cycle, frequency, time period, amplitude, instantaneous value G-1 To find the ratio of inductance of a coil

having air-core and iron-core respectively

and to observe the effect of introduction of a

magnetic core on coil inductance

29 average value, r.m.s. value, maximum value, form factor and peak factor. G-2 To find the ratio of inductance of a coil

having air-core and iron-core respectively

and to observe the effect of introduction of a

magnetic core on coil inductance

30 Representation of sinusoidal quantities by phasor diagrams

31 Equation of sinusoidal wave form (with derivation) G-1 To find the voltage current relationship in a

single phase R-L and R-C Series circuits, draw

their impedance triangles and determine the

power factor in each case .

6

7

8

9

10

11

9

10

11

6

7

8

32 Effect of alternating voltage applied to a pure resistance, pure inductance G-2 To find the voltage current relationship in a

single phase R-L and R-C Series circuits, draw

their impedance triangles and determine the

power factor in each case .

33 Pure capacitance.

34 Concept of Inductive reactance, Capacitive reactance and impedance G-1 To test a lead - acid storage battery and

measure its specific gravity.

35 Alternating voltage applied to resistance and inductance in series. G-2 To test a lead - acid storage battery and

measure its specific gravity.

36 Alternating voltage applied to resistance and capacitance in series.

37 Impedance triangle and phase angle G-1 Measurement of power and power factor in

a single phase R.L.C. circuit and to calculate

active and reactive power.

38 Solutions and phasor diagrams for simple RLC circuits (series and

parallel).

G-2 Measurement of power and power factor in

a single phase R.L.C. circuit and to calculate

active and reactive power.

39 Series and parallel resonance conditions (with derivation)

40 Power in pure resistance, inductance and capacitance, power in

combined RLC circuits. Power factor, active and reactive power and their

significance, importance of power factor.

G-1 Visit to a nearby Power Station(s).

41 Power factor, active and reactive power and their significance,

importance of power factor.

G-2 Visit to a nearby Power Station(s).

42 Definition of conductance, susceptance and admittance

43 Principle of power generation in thermal, hydro and nuclear power

stations and their comparative study.

44 Elementary block diagram of thermal, hydro and nuclear power stations

1414

15

12

13

12

13

Week Practicals

Topic

1 Principle and utility of detail and assembly drawings

2 Wooden joints i.e. corner mortice and tenon joint, Tee halving joint, Mitre faced

corner joint, Tee bridle joint, Crossed wooden joint, Cogged joint, Dovetail joint,

Through Mortice and Tenon joint, furniture drawing - freehand and with the help

of drawing instruments.

3 Screw threads and threaded fasteners (8 sheets) Types of threads-External and

Internal threads,

4 Right and Left hand threads (Actual and Conventional representation),

5 single and multiple start threads.

6 Different Forms of screw threads-V threads B.S.W threads

7 B.A thread (American National ) Metric thread

8 Square threads (square Acme,) Buttress and Knuckle thread

9 Different views of hexagonal and square nuts and hexagonal headed bolt

10 Assembly of Hexagonal headed bolt and Hexagonal nut with washer.

11 Assembly of square headed bolt with hexagonal and with washer.

12 Different types of locking devices-Lock nut, castle nut, split pin nut, locking plate,

slotted nut and spring washe

13 Foundations bolts-Rag bolt, Lewis bolt, curved bolt and eye bolt.

14 Drawing of various types of machine screw, set screw, studs and washers

15

Various types of keys and cotters and their practical application and preparation of

drawing of various keys and cotters showing keys and cotters in position

16 Various types of joints (3 sheets) Spigot and socket joint

17 Gib and cotter joint

18 Knuckle joint

19 Types of general purpose-rivets heads (4 Sheets)

20 Caulking and fullering of riveted joints

21 Types of riveted joints

(i) Lap joint-Single riveted, double riveted (chain and zig-zag type)

(ii) Single riveted, Single cover plate butt joint (chain type)

22 (iii) Single riveted, double cover plate butt joint (chain type)

(iv) Double riveted, double cover plate butt joint(chain and zig-zag type)

23 Couplings (2 sheets) Flange coupling (Protected and non-protected),

24 Couplings (2 sheets) Flange coupling (Protected and non-protected),

25 muff coupling and half-lap muff coupling

26 muff coupling and half-lap muff coupling

27 Civil engineering sanitary fitting symbols

28 Electrical fitting symbols for domestic interior installations

29Concept of AutoCAD, Tool bars in AutoCAD, coordinate system, snap, grid, and

ortho mode

30Drawi g co a ds – poi t, li e, arc, circle, ellipse Editi g co a ds – scale, erase, copy, stretch, lengthen and explode

14

15

LESSON PLAN

Name of Faculty : Guest Faculty (Practical)

Discipline : Electrical Engg.

Semester : 2nd

Subject : ED-II

Work Load : Practical-6

2

3

4

5

6

Practical

Day

1

13

12

7

8

9

10

11

Week Practical

(Including Assignments and Tests)

1 Concept /Meaning and its need

2 Qualities and functions of entrepreneur

3 barriers in entrepreneurship

4 Sole proprietorship

5 partnership forms of business organisations

6 Schemes of assistance by entrepreneurial support agencies at National

7 State, District level:

8 NSIC

9 NRDC

10 DC: MSME, SIDBI, NABARD, Co ercial Ba ks, SFC’s11 TCO, KVIB, DIC

12 Technology Business Incubator (TBI)

13 Science and Technology Entrepreneur Parks (STEP).

14 Scanning of business environment

15 Salient features of National industrial policies

16 State industrial policies

17 resultant business opportunities

18 Types and conduct of market survey

19 Assessment of demand

20 supply in potential areas of growth

21 Identifying business opportunity

22 Considerations in product selection

23 Preliminary project report

24 Detailed project report including technical preparations

25 economic

26 market feasibility

27 Common errors in project report preparations

28 Exercises on preparation of project report

29 Definitions and importance of management

30 Functions of management: Importance and Process of planning

31 organising, staffing, directing and controlling

32Principles of management (Henri Fayol, F.W. Taylor)

33

Types of industrial organisations

a) Line organisation

b) Line and staff organisation

c) Functional Organisation

34

Leadership

35Manager Vs leader

Practical

day

1

2

LESSON PLAN

Name of Faculty : NARSINGH PARMAR


Semester : 6th

Subject : EDM

Work Load : (THEORY- 3)

3

9

12

4

5

6

7

8

10

11

36

Motivation

37 Theories of motivation (Maslow, Herzberg, McGregor)

38

Management Scope in Different Areas (06 hrs)

a) Human Resource Management

39

40

Material and Store Management

41

Marketing and sales

42

43

Financial Management

VAT

44

Miscellaneous Topics

a) Customer Relation Management (CRM)

45

b) Total Quality Management (TQM)

46

Intellectual Property Right (IPR)

15

13

14

LESSON PLAN

Name of Faculty : Ved Parkash


Semester : 4th

Subject : EEDD (Practical)

Work Load : Practicals-6

Week Practicals

Topic

G-1 DOL starting of 3-phase induction motor

G-2 DOL starting of 3-phase induction motor

G-1 3-phase induction motor getting supply from selected feeder

G-2 3-phase induction motor getting supply from selected feeder

G-1 Forwarding/reversing of a 3-phase induction motor

G-2 Forwarding/reversing of a 3-phase induction motor

G-1 Two speed control of 3-phase induction motor

G-2 Two speed control of 3-phase induction motor

G-1 Limit switch control of a 3-phase induction motor

G-2 Limit switch control of a 3-phase induction motor

G-1 Sequential operating of two motors using time delay relay

G-2 Sequential operating of two motors using time delay relay

G-1 Manually generated star delta starter for 3-phase induction motor

G-2 Manually generated star delta starter for 3-phase induction motor

G-1 Automatic star delta starter for 3-phase Induction Motor

G-2 Automatic star delta starter for 3-phase Induction Motor

G-1 Concept and purpose of earthing &Procedure of earthing, test of

materials required and costing, Method of reducing earth resistance

G-2 Concept and purpose of earthing &Procedure of earthing, test of

materials required and costing, Method of reducing earth resistance

G-1 Different types of earthing, drawings of plate earthing

G-2 Different types of earthing, drawings of plate earthing

G-1 pipe earthing

G-2 pipe earthing

G-1 Relevant IS specifications of earth electrode for earthing a

transformer, a high building & Earthing layout of distribution

transformer

G-2 Relevant IS specifications of earth electrode for earthing a

transformer, a high building & Earthing layout of distribution

transformer

G-1 Substation earthing layout and earthing materials

G-2 Substation earthing layout and earthing materials

G-1 Key diagram of 11KV, 33Kv

G-2 Key diagram of 11KV, 33Kv

G-1 Key diagram of 66KV

G-2 Key diagram of 66KV

5

6

7

8

Practical Day

1

2

3

4

G-1 Key diagram of 132 KV sub-stations

G-2 Key diagram of 132 KV sub-stations

G-1 End cover of induction motor

G-2 End cover of induction motor

G-1 Rotor of a squirrel cage induction motor

G-2 Rotor of a squirrel cage induction motor

G-1 Field coil of a DC motor & Terminal plate of an induction motor

G-2 Field coil of a DC motor & Terminal plate of an induction motor

G-1 Terminal plate of induction motor

G-2 Terminal plate of induction motor

G-1 Motor body (induction motor) as per IS specifications &

G-2 Motor body (induction motor) as per IS specifications &

G-1 Sliprings of 3-phase induction motor

G-2 Sliprings of 3-phase induction motor

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

G-1 RIVISION

G-2 RIVISION

15

10

11

12

13

14

8

9

LESSON PLANName of Faculty : Mr. Ranbir Dahiya


Semester : 6th

Subject : Electrical Power-II

Work Load : 4 Theory, 06 Practical



1 Common type of faults in both overhead and underground systems, symmetricaL

/ unsymmetrical faults.

G-1 Testing of the dielectric strength of transformer oil and air

2 Single line to ground fault, double line to ground fault, G-2 Testing of the dielectric strength of transformer oil and air

3 3-phase to ground fault open circuit,

4 simple problems relating to fault finding. G-1 Study of different types of circuit breakers and isolators

5 Purpose of protective gear. Difference between switch, isolator and circuit

breakers. Function of isolator and circuit breaker. Making capacity and breaking

G-2 Study of different types of circuit breakers and isolators

6 capacity of circuit breaker (only definition)

7 Circuit breakers. Types of circuit breakers, bulk and minimum oil circuit breakers,

air SF6 circuit breakers

8 air SF6 circuit breakers G-1 Plot the time current characteristics of over current relay

9 Principles of Arc extinction blast circuit breakers in OCB and ACB, G-2 Plot the time current characteristics of over current relay

10 Constructional features of OCB, ACB, and their working, Method of arc extinction

11 Miniature circuit breakers MCB, MCCB, ELCB, for distribution and transmission

system (Descriptive)

12 Miniature circuit breakers MCB, MCCB, ELCB, for distribution and transmission

system (Descriptive)

G-1 Power measurement by using CTs and PTs

13 Fuses; function of fuse. Types of fuses, HV and LV fuses, G-2 Power measurement by using CTs and PTs

14 rewire-able, cartridge, HRC

15 Earthing: purpose of earthing, method of earthing, Equipment earthing,

Substation earthing, system earthing as per Indian Electricity rules. Methods of

reducing earth resistance.

16 Earthing: purpose of earthing, method of earthing, Equipment earthing,

Substation earthing, system earthing as per Indian Electricity rules. Methods of

reducing earth resistance.

G-1 Earthing of different equipment/Main Distribution Board

and Energy Meter Box

17 Relays:

Introduction - types of relays. Electromagnetic and thermal relays, their

construction and working

G-2 Earthing of different equipment/Main Distribution Board

and Energy Meter Box

1

Lecture

day

Practical

Day

1

2

5

2

3

4

5

3

4

18 Relays:

Introduction - types of relays. Electromagnetic and thermal relays, their

construction and working

19 Induction type over-current, earth fault relays, instantaneous over current relay

20 Induction type over-current, earth fault relays, instantaneous over current relay G-1 Perform the overload and short circuit test of MCB as per IS

specifications

21 Directional over-current, differential relays, their functions G-2 Perform the overload and short circuit test of MCB as per IS

specifications

22 Directional over-current, differential relays, their functions

23 Distance relays, their functions

24 Idea of static relays and their applications G-1 Plot the time-current characteristics of Kit-Kat fuse wire

25 Relays for generator protection G-2 Plot the time-current characteristics of Kit-Kat fuse wire

26 Relays for transformer, protection including Buchholtz relay protection

27 Relays for transformer, protection including Buchholtz relay protection

28 Protection of feeders and bus bars, Over current and earth fault protection. G-1 Taking reading of current on any LT line with clip on meter

29 Protection of feeders and bus bars, Over current and earth fault protection. G-2 Taking reading of current on any LT line with clip on meter

30 Distance protection for transmission system

31 Relays for motor protection

32 Protection of system against over voltages, causes of over voltages, utility of

ground wire

G-1 industrial visit

33 Protection of system against over voltages, causes of over voltages, utility of

ground wire

G-2 industrial visit

34 Lightning arrestors, rod gap, horn gap, metal oxide type.

35 Lightning arrestors, rod gap, horn gap, metal oxide type.

36 Transmission Line and substation protection against over-voltages and lightning G-1 industrial visit

37 Transmission Line and substation protection against over-voltages and lightning G-2 industrial visit

38 Various Types of Tariffs

39 Various Types of Tariffs

40 Concept of Tariffs

41 Concept of Tariffs

42 Block rate, flat rate, maximum demand and two part tariffs

43 Block rate, flat rate, maximum demand and two part tariffs

44 Simple problems

8

9

6

10

11

6

7

8

9

10

11

7



1

Electronic components & Active and passive components

G-1

Identification and testing of electronic components such as

resistor, inductor, capacitor, diode,

transistor and different types of switches used in Electronic

circuits

G-2




circuits

G-1Measurement of resistances using multimeter and their

comparison with colour code values

3Conversion of voltage source into current source and vice-versa, Difference

between actual voltage source and constant voltage sourceG-2

Measurement of resistances using multimeter and their


4Atomic structure, crystalline structure, Energy band theory of crystals,

G-1V-I characteristics of a Semiconductor diode and to calculate

its static and dynamic resistance

5energy band structure of insulator, semiconductor and conductor, generation

and recombination of electron hole pairs.G-2

V-I characteristics of a Semiconductor diode and to calculate


6 Energy band structure of Silicon and Germanium

G-1V-I characteristics of a zenor diode and finding its reverse

breakdown voltage


breakdown voltage

G-1Fabrication of a zenor diode voltage stabilizer circuit using PCB

9 Effect of temperature on intrinsic and extrinsic

10PN Junction, mechanism of current flow in PN junction, drift and diffusion

currents, depletion layer, potential barrie G-1Observation of input and output wave shapes of a half-wave

rectifier and verification of relationship between dc output

and ac input voltage

11

effect of forward and reverse biasing in a PN junction

Fabrication of a zenor diode voltage stabilizer circuit using PCB

Observation of input and output wave shapes of a half-wave


and ac input voltageG-2

Practical

Day

LESSON PLAN



Semester : 2ND

Subject : ELECTRONICS - I

Work Load : (THEORY- 3) (Practical- 2)

Lecture

day

1

2

3

4 4

Concept of current and voltage sources, constant voltage and current sources

2

7

8

G-2

1

2

3

Silicon versus Germanium for mobility and conductivity

Concept of Doping, intrinsic and extrinsic semiconductors semiconductors

12Concept of junction capacitance in forward and reverse biased conditions.

Breakdown mechanism

13Ideal diode, Semiconductor diode characteristics, static and dynamic resistance

G-1Observation of input and output wave shapes of a full wave

rectifier and verification and relationship between dc and ac

input voltage

14

Use of diode as half wave and full wave rectifiers (centre tapped and bridge

type),

15 relation between DC output and AC input voltage, rectifier efficiency

16Co cept of ripples, filter circuits – shu t capacitor, series i ductor, a d pie π filters and their applications


rectifier with (i) Shunt Capacitor

17 Diode ratings/specifications

18Various types of diodes such as zener diode, varactor diode, schottky diode,

light emitting diode

19diode, tunnel diode, photo diode; their working characteristics and applications


rectifier with (ii) series inductor

20Zener diode and its characteristics & Use of zener diode for voltage

stabilization

21Concept of junction transistor, PNP and NPN transistors, their symbols and

mechanism of current flow

22Transistor configurations: common base (CB)


23 common emitter (CE)

24 common collector (CC)

25current relation and their input/output characteristics; comparison of the three

configurationsG-2

Plotting input and output characteristics of a transistor in CB

configuration

26 Transistor biasing, its need, operating point

27 effect of temperature on the operating point of a transistor

28need of stabilization of operating point. Plotting input and output characteristics of a transistor in CE

configuration

29Different biasing circuits, limitations, simple problems to calculate operating

point in different biasing circuits.

30 Use of Theve i ’s theore to deter i e operati g poi t

31

Concept of h-parameters of transistor , Use of data book to know the

parameters of a given transistorG-1

Measurement of operating point in case of (i) fixed biased

circuit (ii) potential divider biasing circuit and to observe the

effect of temperature variation on the operating point.

32Single stage transistor amplifier circuit in CE configuration, function of each

component & Working of single stage transistor amplifier, physical and

graphical explanation, phase reversal

7

8

9

10

11

Observation of input and output wave shapes of a full wave


input voltage






configuration

7

5

6

5

6

11

G-2 Observation of input and output wave shapes of a full wave 8

9

10 Plotting input and output characteristics of a transistor in CE

configuration

G-2 Measurement of operating point in case of (i) fixed biased



G-1

G-2

G-2

G-2

33Concept of DC and AC load line & Voltage gain of single stage transistor

amplifier using characteristics of the device

34Concept of input and output impedance & AC equivalent circuit of single stage

transistor amplifiers G-1To measure the voltage gain and band width by plotting

frequency response curve of a single stage amplifier using CE

configuration at different loads

35Calculation of voltage gain using AC equivalent circuit & Frequency response of

a single stage transistor amplifier

36Need of ulti-stage tra sistor a plifiers – differe t types of coupli gs, their purpose and applications.

37

Knowledge of various terms such as voltage gain, current gain, power gain,

frequency response, decibel gain and band widthG-1

To study the effect of coupling capacitor on lower cut off

frequency and upper cut off frequency by plotting frequency

response curve of a two stage RC coupled amplifier

38RC coupled two-stage amplifiers, circuit details, working, frequency response,

applications & Loading effect in multistage amplifiers

39Elementary idea about direct coupled amplifier, its limitations and applications

40 Transformer coupled amplifiers, its frequency response G-1 To plot V-I characteristics of a FET

41Effect of co-efficient of coupling on frequency response. Applications of

transformer coupled amplifiers

42Construction, operation, characteristics and applications of a N channel JFET

and P channel JFET

43 JFET as an amplifier G-1 Assessment

44Types, construction, operation, characteristics and applications of a MOSFET

45 Comparison between BJT, JFET and MOSFET

15

12

13

14

15

12

13

14


G-2 To measure the voltage gain and band width by plotting






G-2 To plot V-I characteristics of a FET

G-2 Assessment

G-2

LESSON PLAN

Name of Faculty : Guest Faculty (THEORY) & SH. NARSINGH PARMAR (PRACTICAL)


Semester : 4th

Subject : Electronics -II

Work Load : THEORY-04 , PRACTICAL -03

Week Lecture

Day

Theory Practicals

Topic Topic

1 Difference between voltage and power amplifier

G-1




2 Important terms in Power Amplifier

3 collector efficiency, distortion and dissipation capability

4 Classification of power amplifier class A

5 B and CG-1

To measure (a) optimum load (b) output power (c) signal handling

capacity of a push-pull amplifier

6 Class A single-ended power amplifier,

7 its working and collector efficiency

8 Impedance matching in a power amplifier using transformer

9 Heat sinks in power amplifiers

G-1

To observe the effect of negative current feedback on the voltage

gain of a single stage transistor amplifier by removing emitter bye-

pass capacitor.

10 Push-pull amplifier: circuit details,

11 working and advantages (no mathematical derivations)

12 Tuned Voltage Amplifier- Introduction

13 Series G-1 To measure (a) voltage gain

14 parallel resonance ( No mathematical derivation)

15 Single and double tuned voltage amplifiers

16 Frequency response of tuned voltage amplifiers

Week

1

2

3

4

1

2

3

4

Practical

Day

G-2




G-2

To measure (a) optimum load (b) output power (c) signal handling

capacity of a push-pull amplifier

G-2

To observe the effect of negative current feedback on the voltage

gain of a single stage transistor amplifier by removing emitter bye-

pass capacitor.

G-2

To measure (a) voltage gain

17 Applications of tuned voltage amplifiersG-1

(b) input and output impedance for an emitter follower circuit

18 Feedback and its importance,

19 positive and negative feedback and their need

20 A 3.2 Voltage gain of an amplifier with negative feedback A = ----------

21 Effect of negative feedback on voltage gain G-1 To measure frequency generation in (a) Hartley

22 stability, distortion, band width, output

23 and input impedance of an amplifier (No mathematical derivation)

24 Typical feedback circuits

25 Effect of removing the emitter by-pass capacitor on a CE transistor

amplifierG-1

(b) R-C Phase Shift oscillator

26 Emitter follower

27 its applications

28 Sinusoidal Oscillators

29 positive feedback in amplifiersG-1

To observe the differentiated and integrated square wave on a

CRO for different values of R-C time constant

30 Difference between an oscillator

31 an alternator

32 Essentials of an oscillator

33 Circuit details and working of LC oscillators viz. Tuned Collector, G-1

Clipping of both portion of sine-wave using: a) diode and dc source

b) zener diodes

34 Hartley

35 Colpitt’s oscillators36 R-C oscillator circuits

37 phase shiftG-1

Clamping a sine-wave to: a) Negative dc voltage b) Positive dc

voltage

38 Wein bridge oscillator circuits

39 Introduction to piezoelectric crysta

40 crystal oscillator circuit

41 Wave-Shaping and Switching Circuits

G-1

To generate square-wave using an astable multivibrator and to

observe the wave form on a CRO and verify the result using p-spice

software

42 Concept of Wave-shaping

43 Wave-shaping circuits

44 R-C differentiating and integrating circuits

45 Diode clipping circuits

G-1

9. To observe triggering and working of a bistable multivibrator

circuit and observe its output wave form on a CRO

11

12

6

7

8

9

10

5 5

6

7

8

9

10

11

12

(b) input and output impedance for an emitter follower circuit

G-2

G-2

To measure frequency generation in (a) Hartley

G-2

(b) R-C Phase Shift oscillator

G-2

To observe the differentiated and integrated square wave on a

CRO for different values of R-C time constant

G-2

Clipping of both portion of sine-wave using: a) diode and dc source

b) zener diodes

G-2

Clamping a sine-wave to: a) Negative dc voltage b) Positive dc

voltage

G-2

To generate square-wave using an astable multivibrator and to

observe the wave form on a CRO and verify the result using p-spice

software

46 Diode clamping circuits

47 Applications of wave-shaping circuits

48 Transistor as a switch (explanation using CE transistor characteristics)

49 Collector coupled astable

G-1

To use the op-Amp (IC 741) as inverting one and non-inverting

amplifiers, adder, comparator, integrator and differentiator and

verify the result using p-spice software

50 monostable, bistable multivibrator circuits

51 (explanation using wave shapes).

52 Brief mention of uses of multivibrators

53 Working and applications of transistor inverter circuit using power

transistorsG-1

To study the pin configuration and working of IC 555 and its use as

monostable and astable multivibrator

54 Working Principles of different types of power supplies viz. CVTs,

55 IC voltage regulator

56 (78 XX,79XX)

57 The basic operational amplifier. The differential amplifier. The emitter

coupled differential amplifier. Offset even voltages and currents G-1

To realize the regulated power supply by using three terminal

voltage regulator ICs such as 7805, 7905, 7915 etc. and verify the

result using p-spice software.

58 Basic operational amplifier applications, integrator and differentiator,

summer, subtractor

59 Familiarization with specifications and pin configuration of IC 741

60 Block diagram and operation of 555 IC timer

13

14

1515

13

14

G-2

To realize the regulated power supply by using three terminal

voltage regulator ICs such as 7805, 7905, 7915 etc. and verify the

result using p-spice software.

G-2

9. To observe triggering and working of a bistable multivibrator

circuit and observe its output wave form on a CRO

G-2

To use the op-Amp (IC 741) as inverting one and non-inverting

amplifiers, adder, comparator, integrator and differentiator and

verify the result using p-spice software

G-2

To study the pin configuration and working of IC 555 and its use as

monostable and astable multivibrator



1

Electronic components & Active and passive components

G-1




circuits

G-2




circuits

G-1Measurement of resistances using multimeter and their


3Conversion of voltage source into current source and vice-versa, Difference

between actual voltage source and constant voltage sourceG-2

Measurement of resistances using multimeter and their


4Atomic structure, crystalline structure, Energy band theory of crystals,

G-1V-I characteristics of a Semiconductor diode and to calculate


5energy band structure of insulator, semiconductor and conductor, generation

and recombination of electron hole pairs.G-2

V-I characteristics of a Semiconductor diode and to calculate


6 Energy band structure of Silicon and Germanium


breakdown voltage


breakdown voltage

G-1Fabrication of a zenor diode voltage stabilizer circuit using PCB

9 Effect of temperature on intrinsic and extrinsic

10PN Junction, mechanism of current flow in PN junction, drift and diffusion

currents, depletion layer, potential barrie G-1Observation of input and output wave shapes of a half-wave


and ac input voltage

11

effect of forward and reverse biasing in a PN junction

2

7

8

G-2

1

2

3

Silicon versus Germanium for mobility and conductivity

Concept of Doping, intrinsic and extrinsic semiconductors semiconductors

Concept of current and voltage sources, constant voltage and current sources

4

1

2

3

4

Practical

Day

LESSON PLAN



Semester : 2ND

Subject : ELECTRONICS - I

Work Load : (THEORY- 3) (Practical- 2)

Lecture

day

Fabrication of a zenor diode voltage stabilizer circuit using PCB

Observation of input and output wave shapes of a half-wave


and ac input voltageG-2

12Concept of junction capacitance in forward and reverse biased conditions.

Breakdown mechanism

13Ideal diode, Semiconductor diode characteristics, static and dynamic resistance



input voltage

14

Use of diode as half wave and full wave rectifiers (centre tapped and bridge

type),

15 relation between DC output and AC input voltage, rectifier efficiency

16Co cept of ripples, filter circuits – shu t capacitor, series i ductor, a d pie π filters and their applications



17 Diode ratings/specifications

18Various types of diodes such as zener diode, varactor diode, schottky diode,

light emitting diode

19diode, tunnel diode, photo diode; their working characteristics and applications



20Zener diode and its characteristics & Use of zener diode for voltage

stabilization

21Concept of junction transistor, PNP and NPN transistors, their symbols and

mechanism of current flow

22Transistor configurations: common base (CB)


23 common emitter (CE)

24 common collector (CC)

25current relation and their input/output characteristics; comparison of the three

configurationsG-2


configuration

26 Transistor biasing, its need, operating point

27 effect of temperature on the operating point of a transistor

28need of stabilization of operating point. Plotting input and output characteristics of a transistor in CE

configuration

29Different biasing circuits, limitations, simple problems to calculate operating

point in different biasing circuits.

30 Use of Theve i ’s theore to deter i e operati g poi t

31

Concept of h-parameters of transistor , Use of data book to know the

parameters of a given transistorG-1

Measurement of operating point in case of (i) fixed biased



32Single stage transistor amplifier circuit in CE configuration, function of each

component & Working of single stage transistor amplifier, physical and

graphical explanation, phase reversal

G-1

G-2

G-2

G-2

G-2 Measurement of operating point in case of (i) fixed biased



G-2 Observation of input and output wave shapes of a full wave 8

9

10 Plotting input and output characteristics of a transistor in CE

configuration

5

6

11

7

5

6

7

8

9

10

11



input voltage






configuration

33Concept of DC and AC load line & Voltage gain of single stage transistor

amplifier using characteristics of the device

34Concept of input and output impedance & AC equivalent circuit of single stage

transistor amplifiers G-1To measure the voltage gain and band width by plotting



35Calculation of voltage gain using AC equivalent circuit & Frequency response of

a single stage transistor amplifier

36Need of ulti-stage tra sistor a plifiers – differe t types of coupli gs, their purpose and applications.

37

Knowledge of various terms such as voltage gain, current gain, power gain,

frequency response, decibel gain and band widthG-1




38RC coupled two-stage amplifiers, circuit details, working, frequency response,

applications & Loading effect in multistage amplifiers

39Elementary idea about direct coupled amplifier, its limitations and applications

40 Transformer coupled amplifiers, its frequency response G-1 To plot V-I characteristics of a FET

41Effect of co-efficient of coupling on frequency response. Applications of

transformer coupled amplifiers

42Construction, operation, characteristics and applications of a N channel JFET

and P channel JFET

43 JFET as an amplifier G-1 Assessment

44Types, construction, operation, characteristics and applications of a MOSFET

45 Comparison between BJT, JFET and MOSFET

G-2

G-2 To plot V-I characteristics of a FET

G-2 Assessment


G-2 To measure the voltage gain and band width by plotting






15

12

13

14

15

12

13

14

LESSON PLAN

Name of Faculty : Mahinder Kaushik (Theory), Ranbir Singh Dahiya (lab Practical)


Semester : 4th

Subject : Electrical Machine-I

Work Load : per week lecture-4, Practical -6

Week Practical Theory Practicals

Topic Topic

1 Introduction to Electrical Machines, Definition of motor and generator,

concept of torque

G-1 Measurement of the angular displacement of the rotor of a slip-ring

induction motor on application of DC to stator of motor winding in

sequence and simultaneously to each phase of rotor winding

2 Torque development due to alignment of two fields and the concept of

torque angle

3 Electro-magnetically induced emf

4 Elementary concept of an electrical machine

5 Comparison of generator and motor G-1 Speed control of dc shunt motor (i) Armature control method

6 Main constructional features, Types of armature winding

7 Main constructional features, Types of armature winding

8 Function of the commutator for motoring and generation action

9 Function of the commutator for motoring and generation action G-1 (ii) Field control method

10 Factors determining induced emf

11 Factors determining the electromagnetic torque

12 Types of dc generation on the basis of excitation, voltage built up in a dc

shunt generator

13 Significance of back e.m.f., the relation between back emf and Terminal

voltage

G-1 Study of dc series motor with starter (to operate the motor on no load

for a moment)

14 Armature Reaction

15 Commutation methods to improve commutation

16 Performance and characteristics of different types of DC motors

17 Performance and characteristics of different types of DC motors G-1 Study of 3 point starter for starting D.C. shunt motor.

18 2.10 Speed control of dc shunt/series motors

19 2.10 Speed control of dc shunt/series motors

Week

1

2

3

1

2

3

4

5

4

5

Practical

Day

G-2

G-2

Measurement of the angular displacement of the rotor of a slip-ring

induction motor on application of DC to stator of motor winding in

sequence and simultaneously to each phase of rotor winding

G-2 Speed control of dc shunt motor (i) Armature control method

G-2 (ii) Field control method

Study of dc series motor with starter (to operate the motor on no load

for a moment)

G-2 Study of 3 point starter for starting D.C. shunt motor.

20 Need of starter, three point dc shunt motor starter and 4-point starter

21 Need of starter, three point dc shunt motor starter and 4-point starter G-1 To perform open circuit and short circuit test for determining: (i)

equivalent circuit (ii) the regulation and (iii) efficiency of a transformer

from the data obtained from open circuit and short circuit test at full

load

22 Applications of DC motors

23 Losses in a DC machine

24 Deter i atio of losses y S i ur e’s test25 Transformers, Introduction, Constructional features of a transformer and

parts of transformer

G-1 To perform open circuit and short circuit test for determining: (i)



load

26 Transformers, Introduction, Constructional features of a transformer and

parts of transformer

27 Working principle of a transformer

28 EMF equation

29 Transformer on no-load and its phasor diagram G-1 To find the efficiency and regulation of single phase transformer by

actually loading it

30 Tra sfor er – egle ti g oltage drop i the i di gs – A pere tur ala e – its phasor diagra

G-2 To find the efficiency and regulation of single phase transformer by

actually loading it

31 Mutual and leakage fluxes, leakage reactance

32 Transformer on load, voltage drops and its phasor diagram

33 Equivalent circuit G-1 Checking the polarity of the windings of a three phase transformer

and connecting the windings in various configurations

34 Relation between induced emf and terminal voltage, regulation of a

transformer- mathematical relation

35 Losses in a transformer

36 Open circuit and short circuit test. Calculation of efficiency, condition for

maximum efficiency-maintenance of Transformer, scheduled

Maintenance

37 Open circuit and short circuit test. Calculation of efficiency, condition for

maximum efficiency-maintenance of Transformer, scheduled

Maintenance

G-1 Finding the voltage and current relationships of primary and

secondary of a three phase transformer under balanced load in

various configurations conditions such as (a) Star-star (b) Star delta (c)

Delta star (d) Delta - Delta configuring conditions

8

9

10

6

7

8

9

10

6

7

G-2

G-2 To perform open circuit and short circuit test for determining: (i)



load

To perform open circuit and short circuit test for determining: (i)



load

G-2 Checking the polarity of the windings of a three phase transformer

and connecting the windings in various configurations

38 Auto transformer construction, saving of copper, working and

applications

39 Different types of transformers including dry type transformer.

41 Construction of three phase transformers and accessories of

transformers such as Conservator, breather, Buchholz Relay, Tap Changer

(off load and on load) (Brief idea)

41 Construction of three phase transformers and accessories of

transformers such as Conservator, breather, Buchholz Relay, Tap Changer

(off load and on load) (Brief idea)





42 Types of three phase transformer i.e. delta-delta, delta-star, star-delta

and star-star

43 Conditions for parallel operation (only conditions are to be

studied)power and distribution transformer 4.6 Cooling of transformer

44 On load tap changer

45 Difference between power and distribution transformer

46 Cooling of transformer

47 REVISION

48 REVISION

49 REVISION

50 REVISION

51 REVISION

52 REVISION

53 REVISION

54 REVISION

55 REVISION

56 REVISION

57 REVISION

58 REVISION

59 REVISION

60 REVISION

11

12

13

14

15 15

11

G-2

12

13

14

Finding the voltage and current relationships of primary and








Week Practicals

Topic

1 Mock interview

2 Mock interview

3 Mock interview

4 Preparing for meeting







11 Group discussion

12 Group discussion

13 Group discussion

14 Group discussion

15 Group discussion

16 Seminar presentation





21 Elements of good presentation



24 Structure and tools of presentation



27 Paper reading

28 Paper reading

29 Paper reading

30 Power point presentation



5

6

Work Load : PRACTICAL-02

LESSON PLAN

Name of Faculty : Mahinder Kaushik (Practical)


Semester : 6th

Subject : Emp. Skills-II Practical

Practical

Day

1

2

3

4

13

15

16

14

7

8

9

10

11

12

LESSON PLAN

Name of Faculty : Mrs. Preeti Girdhar


Semester : 4th

Subject : ENERGY SOURCES AND MANAGEMENT OF ELECTRICAL ENERGY

Week Practical

Day

Practicals

Topic

1 Various energy sources, importance of non conventional sources of energy,

2 present scenario, future prospects and economic criteria

3 Solar Energy:

Principle of conversion of solar radiation into heat, photo-voltaic cell,

4 electricity generation, application of solar energy like solar water heaters,

5 solar furnaces

6 solar cookers,

7 solar lighting,

8 solar pumping.

9 Bio-energy

10 Bio-mass conversion technologies- wet and dry processes

11 Methods for obtaining energy from biomass

12 Power generation by using gasifiers

13 Wind Energy

14 Wind energy conversion

15 windmills, electricity generation from wind- types of wind mills

16 local control, energy storage

17 Geo-thermal and Tidal Energy - INTRODUCTION

18 Geo-thermal sources, Ocean thermal electric conversion, open and closed cycles

19 hybrid cycles

20 Prime movers for geo-thermal energy conversion

21 Steam Generation and electricity generation

22 Magneto Hydro Dynamic (MHD) Power Generation




26 Chemical Energy Sources -INTRODUCTION

27 Design and operating principles of a fuel cell,

28 conversion efficiency

29 work output and e.m.f of fuel cells

30 applications.

31 Energy Conservation and Management-INTRODUCTION

32 Need for energy conservation with brief description of oil and coal crisis

33 Need for energy conservation with brief description of oil and coal crisis

34 Environmental aspects

35 c) Energy efficiency- its significance

36 d) Energy efficient technology an overview

37 Energy conservation in Domestic sector- Lighting

38 home appliances

39 Need for energy efficient devices

40 Need for energy efficient devices

41 Energy conservation in Industrial sector- Motors, Industrial lighting

42 Distribution system, Pumps, Fans, Blowers etc

1

2

3

4

5

6

7

8

9

43 Energy conservation in Agriculture sector, Tube-well pumps

44 diesel-generating sets, Standby energy sources.

45 Macro Level approach for energy conservation at design stage

46 REVISION

47 REVISION

48 REVISION

49 REVISION

50 REVISION

51 REVISION

52 REVISION

53 REVISION

54 REVISION

55 REVISION

56 REVISION

57 REVISION

58 REVISION

59 REVISION

60 REVISION

61 REVISION

62 REVISION

63 REVISION

64 REVISION

65 REVISION

66 REVISION

67 REVISION

68 REVISION

69 REVISION

70 REVISION

71 REVISION

72 REVISION

73 REVISION

74 REVISION

75 REVISION

14

15

10

11

12

13

LESSON PLAN

Name of Faculty : Mr. Ranbir Dahiya


Semester : 4th

Subject : Estimating & Costing

Work Load : 4 Theory

Week Practical

Day

Practicals

Topic

1

Purpose of estimating and costing, proforma for making estimates, preparation of materials

schedule, costing, price list, preparation of tender document (with 2-3 exercises), net price list

2



3



4



5

market survey, overhead charges, labour charges, electrical point method and fixed

percentage method, contingency, profit, purchase system, enquiries, comparative statements,

orders for supply, pay e t of ills. Te ders – its o stitue ts, fi alizatio , spe i e te der

6




7




8




9

Types of wiring :

Cleat, batten, casing capping and conduit wiring, comparison of different wiring systems,

selection and design of wiring schemes for particular situation (domestic and Industrial)

10

Types of wiring :



11

Types of wiring :



12

Types of wiring :



13Selection of wires and cables, wiring accessories and use of protective devices i.e. MCB, ELCB

etc. Use of wire-gauge and tables ( to be prepared/arranged)

3

1

2







17

Estimating and Costing:

Domestic installations; description of various tests to test the wiring installation before

commissioning, standard practice as per IS and IE rules. Planning of circuits, sub-

18




19




20




21

circuits and position of different accessories, electrical layout, preparing estimates including

cost as per schedule rate pattern and actual market rate (for house of two room set along

with layout sketch)

22



with layout sketch)

23



with layout sketch)

24



with layout sketch)

25

Industrial installations; relevant IE rules and IS standard practices, planning, designing and

estimation of installation for single phase motors of different ratings, electrical circuit

diagram, starters, preparation of list of materials

26




27




28




29estimating and costing exercises on workshop with singe-phase, 3-phase motor load and the

light load (3-phase supply system)





7

8

4

5

6



33Service line connections estimate for domestic upto 10 KW and Industrial loads upto 20 KW

(over-head and under ground connections) from pole to energy meter.







37

Estimating the material required for:

Transmission and distribution lines (overhead and underground) planning and designing of

lines with different fixtures, earthing etc. based on unit cost calculations

38




39




40




41Substation: Types of substations, substation schemes and components, estimate of 11/0.4 KV

pole mounted substation up to 200 KVA rating, methods of earthing of substations, Key

Diagram of 66 KV/11KV and 11 KV/0.4 KV Substation










45Single line diagram, layout sketching of outdoor, indoor 11kV sub-station or 33kV substation

46Single line diagram, layout sketching of outdoor, indoor 132kV sub-station or 60kV sub-

station

47Single line diagram, layout sketching of outdoor, indoor 220kV sub-station or 66kV sub-

station

48 Single line diagram, layout sketching of outdoor, indoor 220kV sub-station.

12

9

10

11

LESSON PLAN

Name of Faculty : Guest Faculty


Semester : 6th

Subject : IMEE

Work Load : 04 LECTURE

Week Practical

Day

Practicals

Topic

1 Tools, accessories and instruments required for installation, maintenance and repair

work

2 Knowledge of Indian Electricity rules

3 codes, causes and prevention of accidents,

4 artificial respiration of an electrocuted person, workmen's safety devices

5 Introduction

6 2.2.2 Testing of electrical installation of a building a) Testing of insulation resistance to

earth open circuit test

7 b) Testing of insulation and resistance between conductors c) Continuity or

8 Continuity or open circuit test

9Erection of steel structures, connecting jumpers, tee-off points, joints and dead ends;

crossing of roads, streets, power/telecommunication lines and railway line,

10clearances; earthing of transmission lines and guarding, spacing and configuration of

conductors: Types of arrangement for suspension and strain insulators, bird

11 guards, anti-climbing devices and danger plates; sizes of conductor, earthwire and guy

wires, Testing and Commissioning.

12Laying of service lines, earthing, provision of service fuses, installation of energy meters

13Inspection, storage, transportation and handling of cables, cable handling equipment,

cable laying depths and clearances from other services such as: water

14 pipes, sewerage, gas pipes, power and telecommunication cables and

15coordination with these services, introduction to cable filling compounds, epoxy

16resins and hardeners, cable jointing and terminations, testing and commissioning

17 Elementary idea regarding inspection and handling of transformers.

18 Elementary idea regarding inspection and handling of transformers.

19 Installation of power/distribution transformers. Earthing system.

20 Installation of power/distribution transformers. Earthing system.

21 Installation of pole mounted, plinth mounted and grid substations

22 Installation of pole mounted, plinth mounted and grid substations

23 Installation of different components of substations viz. busbars, isolators, CT and PT,

lightning

24 arrestors, control and relay panels, HT/LT circuit breakers.

25 Handling and inspection of electric motors and generators (AC and DC)

26 Handling and inspection of electric motors and generators (AC and DC)

27 drying out medium voltage distribution panels, testing and commissioning.

28 drying out medium voltage distribution panels, testing and commissioning.

29 Definition and types of maintenance, maintenance schedules, procedures

30 Definition and types of maintenance, maintenance schedules, procedures

31 Authorized persons, danger notice, caution notice, permit to work,

32 arranging of shutdowns personally and temporary earths cancellation of permit and

restoration of supply.

6

7

8

1

2

3

4

5

33 Patrolling and visual inspection of lines - points to be noted during patrolling from

ground; special inspections and night inspections;

34 Location of faults using Meggar, effect of open or loose neutral connections

35 provision of proper fuses on service lines and their effect on system, causes of dim and

flickering lights.

36 Maintenance schedule of transmission and distribution system.

37 Transformer maintenance and points to be attended to in respect of various items of

equipmen

38 Transformer maintenance and points to be attended to in respect of various items of

equipmen

39 Checking of insulation resistance, transformer oil level BDV test of oil and

40 measurement of earth resistance

41 Maintenance schedule of distribution transformers

42 Maintenance schedule of distribution transformers

43Checking and maintenance of busbars, isolating switches, HT/LT circuit breakers,

44 LT switches. Power transformers

45 Maintenance schedule of grid substation



48Over hauling of motors, preventive maintenance, trouble shooting of electric motors




52 Maintenance schedule of AC and DC motors





14

9

10

11

12

13

LESSON PLAN

Name of Faculty : Mrs. Preeti Girdhar (THEORY & PRACTICAL)


Semester : 4th

Subject : Instrumentation

Work Load : THEORY -03, PRACTICAL -2



1MEASUREMENTS- IMPROTANCE OF MEASUREMENTS BASIC MEASURING SYSTEM

TO MEASURE THE LEVEL OF A LIQUID USING A

TRANSDUCER

2ADVANTAGES & LIMITATIONS OFEACH MEASURING SYSTEMS AND DISPLAY DEVICES

3 TRANSDUCERS , THEORY

4 CONSTRUCTION & USE OF VARIOUS TRANSUDCERS LIKE RESISTANCE INDUCTANCE

& CAPACITANCE. TO MEASURE TEMPERATURE USING A THERMOCOUPLE

5 CONST- A USE OF ELECTROMEGNETIC PIEZO ELECTRIC TYPE.

6 MEASUREMENTS OF DISPLACEMENT AND STRAIN- DISPLACEMENT MEASURING

DEVICES, WIRE WOUND, POTENTIOMETER, LVDT

7STAIN GUAGE & THEIR DIFIFCULT TYPE STUDY AND USE OF DIGITAL TEMPERATURE CONTROLLER

8 RESISTANCE TYPE, WIRE AND FOIL TYPE ETC.

9 GAUGE FACTOR, GAUGE MATERIALS AND THEIR SELECTIONS

10 USE OF ELECTRICAL STAIN GAUGES USE OF THERMISTOR IN ON/OFF TRANSDUCER

11 STRAIN GUAGE BRIDGES

12 AMPLIFIERS & ASSIGNMENTS BASED IB AVIVE TIOUCS

13 FORCE AND TORQUE MEASUREMENTS- DIFFERENT TYPES OF FORCE MEASURING

DEVICES AND THEIR PRINCIPLES. STUDY OF VARIABLE CAPACITANCE TRANSDUCER

14 LOAD MEASUREMENTS BY USING PELASTIC TRANSDUCERS

15 BY ELECTRICAL STRAIN GUAGES

16 LOAD CELLS DRAW THE CHARACTERSITICS OF A POTENTIOMETER

17 MEASUREMENT OF TONQUE BY BROKE DYNAMOMETER, ELECTRICAL STAIN

GUAGES

18 DIFFERENT METHODS & DEVICES OF SPEED MEASUREMENTS

19 PRESSURE MEASUREMENT- BOUNON PRESSURE GUAGES ELECTRICAL PRESSURE

PICK UPS TO MEASURE THE LINE OR DISPLACEMENT USING LVDT

20 PRINCIPLE OF ELECTRICAL PRESSURE PICK UPS & THEIR PRINCIPLE

21 CONSTRUCTION & APPLICATIONAL OF PICK UPS. USE OF PRESSURE CELLS

Practical

Day

11

2

3

Lecture

day

4

5

6

7

2

3

4

5

6

7

TO MEASURE THE LEVEL OF A LIQUID USING A

TRANSDUCER

TO MEASURE TEMPERATURE USING A THERMOCOUPLE

STUDY AND USE OF DIGITAL TEMPERATURE CONTROLLER

USE OF THERMISTOR IN ON/OFF TRANSDUCER

STUDY OF VARIABLE CAPACITANCE TRANSDUCER

DRAW THE CHARACTERSITICS OF A POTENTIOMETER

TO MEASURE THE LINE OR DISPLACEMENT USING LVDT

22 FLOW MEASUREMENT- BASIC PRINCIPLE OF MEGNETIC FLOW METERS TO STUDY THE USE OF ELECTRICAL STRAIN GUAGE

23 BASIC PRINCIPLES OF UTTARENIC FLOW METERS

24 ASSIGNMENT BASED ON ABOVE TOPICS

25 MEASUREMENT OF TEMPERATURE - BIMETALLIC THEROMETER TO STUDY WEIGHING MACHINE USING LOAD CELL

26 THERMOELICT THERMOMETERS

27 RESISTANCE THEROMETERS

28 THERMOCOUPLE TO STUDY PH METER

29 THERMISTORS

30 PYROMETERS

31 TEMPERATURE RECERDERS

32 MEASUREMENT OF OTHER - NON ELECTRICAL QUANTITIES

33 PH LEVELS

34 MEASUREMENT OF VIBERATIONS

35 HUMIDITY

36 PH LEVELS

37 MEASUREMENTS

38 TRANSUDERS

39 DISPLACEMENT & STRAIN

40 FORCE & TORQUE MEASUREMENT

41 PRESSURE MEASUREMENT

42 FLOW MEASUREMENT

43 MEASUREMENT OF TEMPERATURE

44 THERMOCOUPLE

45 THERMISTOR & PYROMETERS

8

9

10

11

12

13

14

15

8

9

10

11

12

13

14

15

TO STUDY THE USE OF ELECTRICAL STRAIN GUAGE

TO STUDY WEIGHING MACHINE USING LOAD CELL

TO STUDY PH METER

Week Practicals

Topic

1 INTRODUCTION

2 MAKING GROUP

3 STUDY OF DIFFERENT TYPE OF PROJECTS

4 STUDY OF DIFFERENT TYPE OF PROJECTS

5 CHOOSE MAJOR PROJECTS

6 CHOOSE MAJOR PROJECTS

7 MAKE BLOCK DIAGRAM OF MAJOR PROJECT

8 MAKE EVERY SECTION DRAWING / SKETCH

9 MAKE CIRCUIT DIAGRAM OF EACH SECTION

10 MAKE CIRCUIT DIAGRAM OF EACH SECTION

11 MAKE MATERIAL LIST WITH SPECIFICATION & QUANTITY

12 PURCHASES OF MATERIAL

13 PURCHASES OF MATERIAL

14 FABRICATION WORKS




18 MAKING WIRING ACCORDING TO CIRCUIT DIAGRAM



21 CHECK THE PROJECT AND FAULT FINDING

22 CHECK THE PROJECT AND FAULT FINDING

23 RECTIFY THE FAULTS

24 RECHECKING THE PROJECTS

25 CHECK THE REPORT

26 ASSESMENT OF STUDENTS




15 30 ASSESMENT OF STUDENTS

7

2

LESSON PLAN

Name of Faculty : Ved Parkash


Semester : 6th

Subject : Major project (Practical)

Work Load : Practicals 06

Practical

Day

1

3

4

5

6

13

14

8

9

10

11

12



1What is PLC, concept of PLC

G-1Components/sub-components of a PLC, Learning functions

of different modules of a PLC system

2Building blocks of PLC, Functions of various blocks

3 limitations of relays. Advantages of PLCs over electromagnetic relays.

4 Different programming languages, PLC manufacturer etc.

5Basic operation and principles of PLC

G-1Practical steps in programming a PLC (a) using a Hand held

programmer

6

7

8

9 Basic instructions like latch, master control self holding relays. G-1 (b) using computer interface

10 Timer instruction like retentive timers, resetting of timers

11Counter instructions like up counter, down counter, resetting of

counters.

12 Arithmetic Instructions (ADD,SUB,DIV,MUL etc.)

13MOV instruction

G-1Introduction to step 5 programming language, ladder

diagram concepts, instruction list syntax

14 RTC(Real Time Clock Function)

15Comparison instructions like equal, not equal, greater, greater than

equal, less than, less than equa

16 Programming based on basic instructions

17timer, counter

G-1Introduction to step 5 programming language, ladder


18sequencer, and comparison instructions using ladder program.

19 Assembly

20 Packaging -

21 Process controls G-1 Basic logic operations, AND, OR, NOT functions

22 Car parking - 6

1

2

3

4

5

Lecture

day

Practical

Day

LESSON PLAN

Name of Faculty : SH. MAHENDER KAUSHIK


Semester : 6TH

Subject : PLC & MICROCONTROLLER

Work Load : (THEORY- 4) (Practical-3)

1

2

3

4

5

6

Components/sub-components of a PLC, Learning functions

of different modules of a PLC systemG-2

G-2

Practical steps in programming a PLC (a) using a Hand held

programmer

G-2

(b) using computer interface

G-2

Introduction to step 5 programming language, ladder


G-2

Introduction to step 5 programming language, ladder


G-2

Basic logic operations, AND, OR, NOT functions

23 Doorbell operation -

24 Traffic light control -

25Microwave Oven - - Filling of Bottles - Room Automation

G-1Logic control systems with time response as applied to

clamping operation

26 Washing machine -

27 Motor in forward and reverse direction -

28 Star-Delta, DOL Starters -

29Paint Industry

G-1Sequence control system e.g. in lifting a device for

packaging and counting

30 Filling of Bottles -

31 Room Automation

32 Micro Controller Series (MCS)-51 Over View

33 Pin details G-1 Use of PLC for an application( teacher may decide)

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Timer operation

G-1

Familiarization with a study of Architecture of 8085 kit,

basic sub systems and input output connectors, functions

keys on micro controllers kit

38 Timer operation

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40

41 Assemblers and Compilers G-1 Familiarization OF MICROCONTROLLER (8051) kit

42

43 Design and Interface- KEYPAD INTERFACE

44 7- segment interface,

45LCD

G-1Testing of general input/output on Micro controller board

46 stepper motor

47 A/D, D/A,

48 RTC interface.

49Introduction of PIC Micro controllers

G-1Development of Electrical , Instrumentation applications

using 8051 micro-controller

50 Introduction of PIC Micro controllers



53 APPLICATION OF MICRO CONTROLLERS G-1 REVISION

54 APPLICATION OF MICRO CONTROLLERS G-2 REVISION

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G-2

G-2

Logic control systems with time response as applied to

clamping operation

G-2

Sequence control system e.g. in lifting a device for

packaging and counting

G-2

Use of PLC for an application( teacher may decide)

G-2

Development of Electrical , Instrumentation applications

using 8051 micro-controller

G-2

Familiarization with a study of Architecture of 8085 kit,

basic sub systems and input output connectors, functions

keys on micro controllers kit

G-2

Familiarization OF MICROCONTROLLER (8051) kit

G-2

Testing of general input/output on Micro controller board

LESSON PLAN

Name of Faculty : Mrs. Preeti Girdhar


Semester : 6th

Subject : UTILIZATION OF ELECTRICAL ENERGY

Week Practical

Day

Practicals

Topic

1 Nature of light, visibility spectrum curve of relative sensitivity of human eye and wave

length of light

2 Definition: Luminous flux, solid angle, luminous intensity, illumination, luminous

efficiency, depreciation factor

3 coefficient of utilization, space to height ratio, reflection factor, glare, shadow, lux.

4 La s of illu i atio – si ple u e i als5 Different type of lamps, construction and working of incandescent and discharge lamps

– thei ha a te isti s, fitti gs e ui ed fo fila e t la p6 mercury vapour sodium lamp, fluorescent lamp, halogen lamp, neon lamp

7 compact filament lamp(CFL), LED Lamp, comparison of incandescent, fluorescent, CFL

& LED

8 Calculation of number of light points for interior illumination, calculation of

illumination at different points9 considerations involved in simple design problems. Illumination schemes; indoor and

outdoor illumination levels

10 Main requirements of proper lighting; absence of glare, contrast and shadow

11 Awareness about time switches, street lighting, flood lighting, monument lighting and

decorative lighting, light characteristics etc.

12 Electric Heating

2.1 Advantages of electrical heating

2.2 Heating methods:

13 Resista e heati g – di e t a d i di e t esista e heati g, ele t i o e s, thei temperature range, properties of resistance heating elements

14 domestic water heaters and other heating appliances, thermostat control circuit

15 Induction heating; principle of core type and coreless induction furnace, their

construction and applications

16 Electric arc heating; direct and indirect arc heating, construction, working and

applications of arc furnace

17 Dielectric heating, applications in various industrial fields

Infra-red heating and its applications (construction and working of two

appliances)

18 Microwave heating and its applications (construction and working of two appliances)

19 Solar Heating

20 Calculation of resistance heating elements (simple problems)

21 Electric Welding:

Advantages of electric welding

Welding method

P i iples of esista e eldi g, types – spot, p oje tio22 seam and butt welding, welding equipment

23 Principle of arc production, electric arc welding, characteristics of arc; carbon arc,

metal arc

24 hydrogen arc welding method and their applications. Power supply requirement.

Advantages of using coated electrodes

25 comparison between AC and DC arc welding, welding control circuits, welding of

aluminum and copper

26 Electrolytic Processes:

Need of electro-deposition

27 Laws of electrolysis, process of electro-deposition - clearing, operation, deposition of

metals, polishing and buffing

28 Equipment and accessories for electroplating

29 Factors affecting electro-deposition

Principle of galvanizing and its applications

30 Principles of anodizing and its applications

31 Electroplating of non-conducting materials

Manufacture of chemicals by electrolytic process

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32 Power supplies for electroplating

33 Electrical Circuits used in Refrigeration,

34 Air Conditioning

35 Water Coolers:

36 Principle of air conditioning, vapour pressure,

37 refrigeration cycle, eco-friendly refrigerants

38 Description of Electrical circuit used in

a) Refrigerator,

39 Air-conditioner,

40 Water cooler

41 Electric Drives: INTRODUCTION

42 Advantages of electric drives

43 Characteristics of different mechanical loads

44 Types of motors used as electric drive

45 Electric braking

Plugging

Rheostatic braking

Regenerative braking46 General idea about the methods of power transfer by direct coupling by using devices

like belt drive, gears, chain drives etc.

47 Examples of selection of motors for different types of domestic loads

48 Selection of drive for applications such as general workshop, textile mill, paper mill,

steel mill, printing press, crane and lift etc. Application of flywheel.

49 Specifications of commonly used motors e.g. squirrel cage motors, slip ring induction

motors, AC series motors, Fractional kilo Watt(FKW) motors

50 Selection of motors for Domestic Appliances

51 Advantages of electric traction over other types of traction.

52 Different systems of electric traction, DC and AC systems, diesel electric system,

53 types of se i es – u a , su -u a , a d ai li e a d thei speed-ti e u es54 Different accessories for track electrification; such as overhead catenary wire,

conductor rail system, current collector-pentagraph

55 Factors affecting scheduled speed

56 Electrical block diagram of an electric locomotive with description of various

equipment and accessories used.

57 Types of motors used for electric traction

58 Power supply arrangements

59 Starting and braking of electric locomotives

60 Introduction to EMU and metro railways

Train Lighting Scheme

61 REVISION

62 REVISION

63 REVISION

64 REVISION

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66 REVISION

67 REVISION

68 REVISION

69 REVISION

70 REVISION

71 REVISION

72 REVISION

73 REVISION

74 REVISION

75 REVISION

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Documents

LESSON PLAN20 Caulking and fullering of riveted joints 21 Types of riveted joints (i) Lap joint-Single riveted, double riveted (chain and zig-zag type) (ii) Single riveted, Single