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Basic Electrical & Electronics Engineering for MSBTE ( I- SCHEME )

U. A. Bakshi A. P. Godse S. S. Mahulkar Ajaykumar K. Kakde ISBN-9789333218986
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₹ 135.00
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Unit - IElectric and Magnetic Circuits 1a. Explain the given technical terms related to electric and magnetic circuits.1b. Interpret the given B - H curve.1c. Interpret hysteresis loop of the given material.1d. Apply Fleming's right hand rule and Lenz's law for determination of direction of induced emf in the given situation. 1.1 EMF, Current, Potential Difference, Power and Energy.1.2 M.M.F, magnetic force, permeability, hysteresis loop, reluctance, leakage factor and B - H curve.1.3 Analogy between electric and magnetic circuits.1.4 Electromagnetic induction, Faraday's laws of electromagnetic induction, Lenz's law, Dynamically induced emf.1.5 Statically induced emf, a) Self induced emf, b) Mutually induced emf, Equations of self and mutual inductance. 08
Unit - IIA.C. Circuits 2a. Explain attributes of the given AC quantities.2b. Find currents and voltages in given series and parallel AC circuits.2c. Derive the current and voltage relationship in the given star and delta connected circuits.2d. Determine the current and voltage in given star and delta connection.2e. Solve simple numerical problems related to the given AC circuits. 2.1 Cycle, Frequency, Periodic time, Amplitude, Angular velocity, RMS value, Average value, Form factor, Peak Factor, impedance, phase angle and power factor.2.2 Mathematical and phasor representation of alternating emf and current, Voltage and Current relationship in Star and Delta connections.2.3 A.C. in resistors, inductors and capacitors, A.C. in R - L series, R - C series, R - L - C series and parallel circuits, Power in A.C. Circuits, Power triangle 12
Unit - IIITransformer and Single phase induction motors 3a. Explain with sketches the construction and working principle of the given type of single phase transformer.3b. Explain with sketches the working principle of the given Autotransformer.3c. Describe with sketches the construction of the given single phase motor3d. Explain with sketches the working principle of the given single phase induction motors. 3.1 General construction and principle of different types of transformers, EMF equation and transformation ratio of transformers.3.2 Auto transformers.3.3 Construction and Working principle of single phase A.C. motor.3.4 Types of single phase motors, Applications of single phase motors. 16
Electronics Engineering
Unit - IVElectronic Components and Signals 4a. Differentiate between the given active and passive electronic components.4b. Calculate value of the given resistor and capacitor using colour code.4c. Explain the given signal parameters with sketches.4d. Identify the given type of ICs based on IC number. 4.1 Active and passive components Resistors, capacitor, inductor symbols, colour codes, specifications.4.2 Voltage and Current Sources.4.3 Signals : waveform (sinusoidal, triangular and square), Time and frequency domain representation, amplitude, frequency, phase, wavelength.4.4 Integrated Circuits - analog and digital. 12
Unit - VDiodes and Applications 5a. Explain with sketches the working of the given type of diode using V - I characteristics.5b. Locate the zener voltage on the given V - I characteristic with justification.5c. Explain with sketches the working of the given type of rectifier using circuit diagrams.5d. Justify selection of power supply and LEDs for the given circuit. 5.1 P - N junction diode : Symbol, construction, working and applications.5.2 Zener diode : working principle, symbol, voltage regulator.5.3 Rectifiers : Half wave, Full wave and Bridge Rectifier, Performance parameters : PIV, ripple factor, efficiency5.4 Filters : circuit diagram and working of 'L', 'C' and '' filter.5.5 Light Emitting Diodes : Symbol, construction, working principle and applications 12
Unit - VIBipolar Junction Transistor 6a. Explain with sketches the application of the given type of transistor as a switch.6b. Determine the current gain of the given type of transistor configurations using transfer characteristic curve.6c. Compare the performance of the given transistor configurations.6d. Select the type of transistors and their configurations for the given application. 6.1 BJT : Symbol, construction and working principle6.2 Transistor as switch and amplifier.6.3 Input and Output characteristics : CE, CB and CC configurations.6.4 Operating Regions - Cut - off, Saturation and Active6.5 Transistor parameters : CB gain , CE gain , input resistance and output resistance, relation between and . 10
Total Marks 70

 

 

Unit - IElectric and Magnetic Circuits 1a. Explain the given technical terms related to electric and magnetic circuits.1b. Interpret the given B - H curve.1c. Interpret hysteresis loop of the given material.1d. Apply Fleming's right hand rule and Lenz's law for determination of direction of induced emf in the given situation. 1.1 EMF, Current, Potential Difference, Power and Energy.1.2 M.M.F, magnetic force, permeability, hysteresis loop, reluctance, leakage factor and B - H curve.1.3 Analogy between electric and magnetic circuits.1.4 Electromagnetic induction, Faraday's laws of electromagnetic induction, Lenz's law, Dynamically induced emf.1.5 Statically induced emf, a) Self induced emf, b) Mutually induced emf, Equations of self and mutual inductance. 08
Unit - IIA.C. Circuits 2a. Explain attributes of the given AC quantities.2b. Find currents and voltages in given series and parallel AC circuits.2c. Derive the current and voltage relationship in the given star and delta connected circuits.2d. Determine the current and voltage in given star and delta connection.2e. Solve simple numerical problems related to the given AC circuits. 2.1 Cycle, Frequency, Periodic time, Amplitude, Angular velocity, RMS value, Average value, Form factor, Peak Factor, impedance, phase angle and power factor.2.2 Mathematical and phasor representation of alternating emf and current, Voltage and Current relationship in Star and Delta connections.2.3 A.C. in resistors, inductors and capacitors, A.C. in R - L series, R - C series, R - L - C series and parallel circuits, Power in A.C. Circuits, Power triangle 12
Unit - IIITransformer and Single phase induction motors 3a. Explain with sketches the construction and working principle of the given type of single phase transformer.3b. Explain with sketches the working principle of the given Autotransformer.3c. Describe with sketches the construction of the given single phase motor3d. Explain with sketches the working principle of the given single phase induction motors. 3.1 General construction and principle of different types of transformers, EMF equation and transformation ratio of transformers.3.2 Auto transformers.3.3 Construction and Working principle of single phase A.C. motor.3.4 Types of single phase motors, Applications of single phase motors. 16
Electronics Engineering
Unit - IVElectronic Components and Signals 4a. Differentiate between the given active and passive electronic components.4b. Calculate value of the given resistor and capacitor using colour code.4c. Explain the given signal parameters with sketches.4d. Identify the given type of ICs based on IC number. 4.1 Active and passive components Resistors, capacitor, inductor symbols, colour codes, specifications.4.2 Voltage and Current Sources.4.3 Signals : waveform (sinusoidal, triangular and square), Time and frequency domain representation, amplitude, frequency, phase, wavelength.4.4 Integrated Circuits - analog and digital. 12
Unit - VDiodes and Applications 5a. Explain with sketches the working of the given type of diode using V - I characteristics.5b. Locate the zener voltage on the given V - I characteristic with justification.5c. Explain with sketches the working of the given type of rectifier using circuit diagrams.5d. Justify selection of power supply and LEDs for the given circuit. 5.1 P - N junction diode : Symbol, construction, working and applications.5.2 Zener diode : working principle, symbol, voltage regulator.5.3 Rectifiers : Half wave, Full wave and Bridge Rectifier, Performance parameters : PIV, ripple factor, efficiency5.4 Filters : circuit diagram and working of 'L', 'C' and '' filter.5.5 Light Emitting Diodes : Symbol, construction, working principle and applications 12
Unit - VIBipolar Junction Transistor 6a. Explain with sketches the application of the given type of transistor as a switch.6b. Determine the current gain of the given type of transistor configurations using transfer characteristic curve.6c. Compare the performance of the given transistor configurations.6d. Select the type of transistors and their configurations for the given application. 6.1 BJT : Symbol, construction and working principle6.2 Transistor as switch and amplifier.6.3 Input and Output characteristics : CE, CB and CC configurations.6.4 Operating Regions - Cut - off, Saturation and Active6.5 Transistor parameters : CB gain , CE gain , input resistance and output resistance, relation between and . 10
Total Marks 70

 

 

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