SETH JAI PARKASH POLYTECHNIC, DAMLA NAME OF FACULTY----------SANDEEP SHARMA DISCIPLINE---------------------- E.C.E (S.F) SEMESTER-------------------------2 ND SUBJECT----------------------------BASIC ELECTRONICS LESSON PLAN DURATION -15 WEEKS ( FROM JAN. TO APRIL 2018 ) WORK LOAD--LECTURES- 03 HRS/WEEK, PRACTICALS- 3HRS/WEEK WEEK THEORY PRACTICALS LECTURE DAy TOPIC PRACTICAL WEEK TOPIC 1st Review of basic atomic structure Operation and use of the 1st and energy levels. 1st following instruments: 2 nd Concept of insulators, conductors Multimeter, CRO, Signal and semi conductors. generator, LCR meter, 3rd Atomic structure of Germanium Regulated Power Supply by (Ge) and way of taking readings of Silicon (Si), covalent bonds. relevant quantities. 4th Concept of intrinsic and extrinsic 2nd semi conductor, process of doping. 2nd Operation and use of the 5th Energy level diagram of conductors, following instruments: LCR insulators and semi conductors, meter, Regulated Power minority Supply by way of taking and majority charge carriers. readings of relevant P and N type semiconductors and quantities. 3rd 4th their conductivity. 7 th Effect of temperature on conductivity of intrinsic semi conductors. 8 th PN junction diode, mechanism of current flow in PN junction. 9th Forward and reverse biased PN junction, potential barrier, drift and diffusion currents.depletion layer. 11th Concept of junction capacitance in forward and reverse biased condition V-I characteristics, static and dynamic resistance and their value calculation from the characteristics. Application of diode as half wave, full wave and bridge rectifiers. 3rd Plotting of V-I characteristics of a PN junction diode. 4th Plotting of V-I characteristics of a Zener diode.
5th 7th 8th 9th 12th Peak Inverse Voltage, rectification efficiencies and ripple factor calculations. 13th shunt capacitor filter, series inductor filter, LC and π filters. 5th To observe the output of Types of diodes and their clipping and clamping characteristics. circuits. 15th Applications of Zener diodes.zener and avalanche breakdown. 1 17th 18th 19th 20th 21th Clipping and Clamping Circuits. Measurement of the voltage Concept of a bipolar transistor, its structure. PNP and NPN transistors, their symbols and mechanism of current CE amplifier circuit. flow. Current relations in a transistor, concept of leakage current. 7th Design of following circuit CB, CE, CC configurations of a on breadboard and observe transistor the output of Half wave rectifier circuit using one diode. CB, CE, CC configurations of a transistor Input and output characteristics in CB and CE configurations. 22th Current amplification factors. Comparison of CB, CE and CC Configurations. 23th 24th Transistor as an amplifier in CE Configuration. Concept of DC load line 8th Design of following circuit on breadboard and observe the output of Full wave rectifier circuit using two diodes. 25th Calculation of current gain and voltage gain using DC load line. 9th Design of following circuit 2 Concept of transistor biasing on breadboard and observe the output of Bridge 27th Selection of operating point. Need for stabilization of operating point rectifier circuit using four diodes. 28th 29th 30th Plotting of the wave shape of full wave rectifier with Shunt capacitor filter and Series inductor filter. 11 circuit. 11 characteristics and th 31th Single stage transistor amplifier th Plotting of input and output 32th Single stage transistor amplifier calculation of parameters of
12th 13th 15th circuit. transistors in CE configuration. 33th Concept of dc and ac load line and its use. 34th Concept of dc and ac load line and its use. 12th Plotting of input and output 35th Explanation of phase reversal of characteristics and output voltage with respect to input calculation of parameters of voltage. transistors 3 Explanation of phase reversal of in CB configuration. output voltage with respect to input voltage. 37th Introduction to Field Effect Transistors. 13th Measurement of voltage 38th Construction and operation OF FET. 39th Characteristics of FETs. CE amplifier circuit. 40th 41th 42th Application OF FET. Construction, operation and characteristics of a MOSFET in depletion and modes. Construction, operation and characteristics of a MOSFET in enhancement modes. Measurement of voltage CE amplifier circuit. 43th Applications OF MOSFET. Introduction to CMOS 15th Plotting of V-I 44th Advantages and applications OF CMOS. 45th Comparison of JFET, MOSFET and BJT. characteristics of a FET based amplifier.
NAME OF FACULTY---RAJ KAMAL JAIN DISCIPLINE-------------- E.C.E (SFC) SEMESTER------------ 2 ND SUBJECT--------------- -B.E.E. LESSON PLAN DURATION-15 WEEKS ( FROM JAN TO APRIL 2018) WORK LOAD: LECTURES-03 HRS/WEEK, PRACTICALS-03 HRS/WEEK Week Theory Practicals Lecture day Topic Practical day Topic 1st 1st Introduction to electricity 1st Operation and use of 2 nd Concept of resistance, concept of capacitance measuring instruments viz 3rd Series /parallel combinations of resistance,capacitance voltmeter, ammeter, cro, Wattmeter, multi-meter and other accessories 2nd 4th Application of kirchhoff s current law Determination of voltagecurrent 5th Kirchhoff s voltage law 2 nd relationship in a dc Star delta connections and their conversion circuit under specific Physical conditions and to draw conclusions. 3rd 7 th Thevenin s theorem 3rd measurement of resistance 8 th Norton s theorem of an ammeter and a 9th Superposition nodal analysis voltmeter 4th Mesh analysis 4th Verification of dc circuits: 11th Maximum power transfer theorem Thevenin s theorem 12th Application of network theorems in solving D.c. Circuit problems 5th 13th Concept of voltage source, symbol and graphical representation characteristics Of ideal and practical sources. 15th Concept of current sources, symbol, characteristics and graphical Representation of ideal and practical current sources Concept of electro-magnetic field produced by flow of electric current,magnetic circuit, concept of magnetomotive force (mmf), 1 Flux, reluctance,permeability, analogy between electric and magnetic circuit 5th Norton s theorem. Observation of change in resistance of a bulb in hot and cold conditions, using Voltmeter and ammeter 17th Faraday s laws of electro-magnetic induction, 18th Principles of self and mutual Induction,, 7th 19th self and mutually induced e.m.f 7th To find the ratio of 20th Series and parallel combination of inductors inductance of a coil having air-core and iron-core 21th Energy stored in an inductor respectively and to observe the effect of introduction of a magnetic core on coil inductance
8th 22th Basic idea of primary and secondary cells 8th Verification of kirchhoff's 23th Construction, working principle and applications of lead-acid, nickel- Cadmium and silver-oxide batteries current law 24th Charging methods used for lead-acid battery care and maintenance of lead-acid battery 9th 25th Series and parallel connections of batteries General idea of solar cells, solar panels and their applications Introduction to maintenance free batteries 2 Concept of alternating quantities 27th Difference between ac and dc 28th Concepts of: cycle, frequency, time period, amplitude, instantaneous value 29th Average value, r.m.s. Value, maximum value, form factor and peak factor 30th Representation of sinusoidal quantities by phasor diagrams 11th 31th Equation of sinusoidal wave form for an alternating quantity 9th 11th Verification of voltage laws in a dc circuit Measurement of power and phase RL. Circuit Measurement of power and phase RC. Circuit 32th Effect of alternating voltage applied to a pure resistance 33th Effect of alternating voltage applied to a pure inductance and pure capacitance 12th 34th Concept of inductive reactance 12th Measurement of power and 35th Concept of capacitive reactance 3 Alternating voltage applied to resistance and inductance in series 13th 37th Alternating voltage applied to resistance and capacitance 13th phase RLC. Circuit Calculation of active and reactive powers in the circuit in series 38th Introduction to series and parallel resonance and its conditions 39th Introduction to series and parallel resonance and its conditions 40th Power in pure resistance,capacitance,inductance Charging and testing of a 41th Definition of conductance, susceptance 42th Admittance, impedance 15th 43th Power in combined RlC circuits. 15th 44th Power factor concept, Significance of power factor 45th Active and reactive power and their significance, lead - acid storage battery