Course curriculum

  • 1

    MODULE 1(Surajit Sur)

    • 1.Module 1_Biasing schemes for BJT and FET amplifiers bias stability various configurations (such as CE CS, CB CG, CC CD) and their features_1
    • 2.Module 1_Biasing schemes for BJT and FET amplifiers bias stability various configurations (such as CE CS, CB CG, CC CD) and their features_2
    • 3.Module 1_Biasing schemes for BJT and FET amplifiers bias stability various configurations (such as CE CS, CB CG, CC CD) and their features_3
    • 4.Module 1_Biasing schemes for BJT and FET amplifiers bias stability various configurations (such as CE CS, CB CG, CC CD) and their features_4
    • 5.Module 1_Diode Circuits, Amplifier models Voltage amplifier current amplifier trans-conductance amplifierand trans-resistance amplifier
    • 6.Module 1_small signal analysis, low frequency transistor models, estimation of voltage gain, input r
    • 7.Module 1_small signal analysis, low frequency transistor models, estimation of voltage gain, input resistance, output resistance _3
    • 8.Module 1_small signal analysis, low frequency transistor models, estimation of voltage gain, input resistance, output resistance _4
    • 9.Module 1_small signal analysis, low frequency transistor models, estimation of voltage gain, input resistance, output resistance _5
    • 10.Module 1_small signal analysis, low frequency transistor models, estimation of voltage gain, input resistance, output resistance -2
    • 11.Module 2_. Feedback topologies Voltage series, current series, voltage shunt, current shunt,effect of feedback on gain_1
    • 12.Module 2_calculation with practical circuits_1
    • 13.Module 2_FET amplifier
    • 14.Module 2_multistage amplifier cascade amplifier_1
    • 15.Module 2_Push Pull amplifier with biasing concept for GATE_3
    • 16.Module 2_Various classes of operation (Class A, B, AB, C ) their power efficiency_1
    • 17.Module 2_Various classes of operation (Class A, B, AB, C ) their power efficiency_2
    • 18.Module 3_FET modeling using Y parameter for Op-Amp
    • 19.Module 3_Two port non-linear network analysis using Y parameter model FET modeling
    • 20.Module 4_Effect of capacinance in multistage amlifier and OpAmp
    • 21.Module 4_Junction capacitance for OpAmp design
    • 22.ANALOGUE ELECTRONICS (CLASS C OPERATION) RERENDERED
    • 23.OP AMP
    • 24.OP AMP AND APPLICATIONS PART_1
    • 25.OP AMP AND APPLICATIONS PART_2
    • 26.OP AMP AND APPLICATIONS PART_3
    • 27.OP AMP AND APPLICATIONS PART_4
    • 28.OP AMP AND APPLICATIONS PART_5
    • 29.OP AMP AND APPLICATIONS PART_6
    • 30.OP AMP AND APPLICATIONS PART_7
  • 2

    Module 2(Goutam Ghosh)

    • 1.ANALOG ELECTRIC CIRCUIT - LECTURE - 1 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 2.ANALOG ELECTRIC CIRCUIT - LECTURE - 2 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 3.ANALOG ELECTRIC CIRCUIT - LECTURE - 3 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 4.ANALOG ELECTRIC CIRCUIT - LECTURE - 4 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 5.ANALOG ELECTRIC CIRCUIT - LECTURE - 5 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 6.ANALOG ELECTRIC CIRCUIT - LECTURE - 6 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 7.ANALOG ELECTRIC CIRCUIT - LECTURE - 7 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 8.ANALOG ELECTRIC CIRCUIT - LECTURE - 8 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 9.ANALOG ELECTRIC CIRCUIT - LECTURE - 9 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 10.ANALOG ELECTRIC CIRCUIT - LECTURE - 10 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 11.ANALOG ELECTRIC CIRCUIT - LECTURE - 11 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 12ANALOG ELECTRIC CIRCUIT - LECTURE - 12 - PROF. GAUTAM GHOSH - Gymkhana TV - IEM
    • 40.How to conducting GCE is related with the H parameter Model(01)
    • 41.The high frequency model of trangister(00)
    • 42.To find out the relationship of Base spreading resistance rbb' how it is related to H parameter(02)
    • 43.Analysis of RC Coupple Trangister at it's low frequence Range(02)
    • 44.Analysis of RC Coupple Trangister mid frequence Range(01)
    • 45.Short circuit current gain of BJT using hybrid Model(0)
    • 46.Analysis of RC coupled Amplifier07
    • 47.Analysis of RC coupled Amplifier11
    • 48.Behaviour of RC Coupled Amplifier at mid frequency Rate08
    • 49.Behaviour of RC Coupled Amplifier in high frequency Rate09
    • 50.Behaviour of RC Coupled Amplifier in mid frequency Rate Continue(10)
    • 51.Gain Bandwith Product of RC Couple Amplifier (12)
    • 52.What is the effect on gain and bandwith we connect several RC Couple transmission in Cascade(13)
    • 13
    • 2.1-1
    • 14.1
    • 14.2
    • 14.3
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
  • 3

    Module 3(Rajib Ghosh)

    • 1.Lecture
    • 2.Lecture
  • 4

    Module 4(Sutapa Roy Adhikari)

    • 1.Lecture
    • 2.Lecture
    • 3.Lecture
    • 4.Lecture
  • 5

    Module 5(Mili Sarkar)

    • Power Amplifier