ELL101: Difference between revisions

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ELL101
Introduction to Electrical Engineering
Credits	4
Structure	3-1-0
Pre-requisites
Overlaps

ELL101 : Introduction to Electrical Engineering

Elements in an Electrical circuit: R, L, C, Diode, Voltage and current sources (independent and dependent/controlled sources). DC circuits, KCL, KVL, Network theorems, Mesh and nodal analysis. Step response in RL, RC, RLC circuits. Phasor analysis of AC circuits. Single phase and 3-phase circuits. Two port network, BJT: CE and small signal model, Operational amplifiers: Model and applications, Introduction to Digital circuits. Magnetic circuits, Transformers: Modeling and analysis, parameter determination. Energy in magnetic field. Electromechanical energy conversion principles with examples. Principles of measurement of voltage, current and power. ELp101 Introduction to Electrical Engineering (Laboratory) 1 Credit (0-0-2) CRO (mechanism and usage). KCL, KVL, Network theorem verification. Step/transient response of RL, RC, RLC, circuits. Steady state response of Circuits of sinusoidal excitation. Diode experiment (clipping, clamping and rectification). Basic circuits using opamp. Transformers OC and SC tests. BH loop in an iron core, DC and AC motor – for observation only. A small mini-project.

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	== ELL101 : Introduction to Electrical Engineering ==		== ELL101 : Introduction to Electrical Engineering ==
	Elements in an Electrical circuit: R, L, C, Diode, Voltage and current sources (independent and dependent/controlled sources). DC circuits, KCL, KVL, Network theorems, Mesh and nodal analysis. Step response in RL, RC, RLC circuits. Phasor analysis of AC circuits. Single phase and 3-phase circuits. Two port network, BJT: CE and small signal model, Operational amplifiers: Model and applications, Introduction to Digital circuits. Magnetic circuits, Transformers: Modeling and analysis, parameter determination. Energy in magnetic field. Electromechanical energy conversion principles with examples. Principles of measurement of voltage, current and power. ELp101 Introduction to Electrical Engineering (Laboratory) 1 Credit (0-0-2) CRO (mechanism and usage). KCL, KVL, Network theorem verification. Step/transient response of RL, RC, RLC, circuits. Steady state response of Circuits of sinusoidal excitation. Diode experiment (clipping, clamping and rectification). Basic circuits using opamp. Transformers OC and SC tests. BH loop in an iron core, DC and AC motor – for observation only. A small mini-project.		Elements in an Electrical circuit: R, L, C, Diode, Voltage and current sources (independent and dependent/controlled sources). DC circuits, KCL, KVL, Network theorems, Mesh and nodal analysis. Step response in RL, RC, RLC circuits. Phasor analysis of AC circuits. Single phase and 3-phase circuits. Two port network, BJT: CE and small signal model, Operational amplifiers: Model and applications, Introduction to Digital circuits. Magnetic circuits, Transformers: Modeling and analysis, parameter determination. Energy in magnetic field. Electromechanical energy conversion principles with examples. Principles of measurement of voltage, current and power. [[ELp101]] Introduction to Electrical Engineering (Laboratory) 1 Credit (0-0-2) CRO (mechanism and usage). KCL, KVL, Network theorem verification. Step/transient response of RL, RC, RLC, circuits. Steady state response of Circuits of sinusoidal excitation. Diode experiment (clipping, clamping and rectification). Basic circuits using opamp. Transformers OC and SC tests. BH loop in an iron core, DC and AC motor – for observation only. A small mini-project.