Engg-Course-Made-Easy

Engineering course Made Easy channel is created to transfer electronics engineering concepts in easy way, through videos.
The channel will be having Videos on various engineering subjects like:
Basic Electronics
Network Analysis,
Electric Circuit Analysis,
Digital Electronics,
Signals and systems,
Digital Signal Processing
Videos are very useful for Engineering students, Diploma students and who are preparing for GATE.

Find current 'I' using Super position theorem for the circuit shown below

Find current 'I' using Super position theorem for the circuit shown below
For the circuit shown below, Obtain Thevenin’s equivalent circuit

For the circuit shown below, Obtain Thevenin’s equivalent circuit
Determine the resistance between the terminals X, Y using star delta transformation.

Determine the resistance between the terminals X, Y using star delta transformation.
Find loop currents I1, I2, I3 in the circuit.

Find loop currents I1, I2, I3 in the circuit.
Find the voltage V at node by using nodal analysis.

Find the voltage V at node by using nodal analysis.
Express the Boolean function in Product of Maxterms form and sum of Minterm form

Express the Boolean function in Product of Maxterms form and sum of Minterm form
Find the compliment of the given functions

Find the compliment of the given functions
Simplification of given Boolean functions

Simplification of given Boolean functions
Conversion of numbers from one number system to another.

Conversion of numbers from one number system to another.
Determine equivalent resistance between the terminals.

Determine equivalent resistance between the terminals.
Example on Norton's theorem

Example on Norton's theorem
Design of 4 to 16 (4:16) Decoder using 2 to 4 (2:4) Decoders

Design of 4 to 16 (4:16) Decoder using 2 to 4 (2:4) Decoders
Negative Edge Triggered (clocked) JK Flip Flop. Explanation with Circuit DiagramTruth Table Waveform

Negative Edge Triggered (clocked) JK Flip Flop. Explanation with Circuit DiagramTruth Table Waveform
Implement the following functions with suitable active high output decoders

Implement the following functions with suitable active high output decoders
Find the Power supplied by 4V source for the circuit shown below, using Mesh analysis

Find the Power supplied by 4V source for the circuit shown below, using Mesh analysis
Find the Thevenin’s equivalent circuit at terminals AB for the circuit shown below.

Find the Thevenin’s equivalent circuit at terminals AB for the circuit shown below.
Find current through 6Ω resistor using Superposition theorem

Find current through 6Ω resistor using Superposition theorem
Realize the function 𝒇(𝒂,𝒃,𝒄,𝒅,𝒆) using a 16-to-1 MUX.

Realize the function 𝒇(𝒂,𝒃,𝒄,𝒅,𝒆) using a 16-to-1 MUX.
Simplify the following function using Quine McClusky (QM) technique

Simplify the following function using Quine McClusky (QM) technique
Transform the following Boolean functions into maxterm and minterm notation

Transform the following Boolean functions into maxterm and minterm notation
Simplify using K-map, write Boolean expression and realize using logic gates

Simplify using K-map, write Boolean expression and realize using logic gates
MOD-5 Synchronous counter using JK Flip Flop

MOD-5 Synchronous counter using JK Flip Flop
Design of Synchronous Counter: Design of MOD-6 Synchronous counter using JK Flip Flop

Design of Synchronous Counter: Design of MOD-6 Synchronous counter using JK Flip Flop
Determine the Energy and Power of the unit step sequence

Determine the Energy and Power of the unit step sequence
Design of Low pass filter using BLT

Design of Low pass filter using BLT
Given the IIR filter: Determine the transfer function, nonzero coefficients, and impulse response

Given the IIR filter: Determine the transfer function, nonzero coefficients, and impulse response
Determine the response of the following systems to the input signal l𝒙[𝒏]=|𝒏|;−𝟑≤𝒏≤𝟑

Determine the response of the following systems to the input signal l𝒙[𝒏]=|𝒏|;−𝟑≤𝒏≤𝟑
The impulse response of a linear time invariant system is h[𝒏]. find the response of the system.

The impulse response of a linear time invariant system is h[𝒏]. find the response of the system.
Determine Z transform of the following signals.

Determine Z transform of the following signals.
Perform Circular convolution : x1(n) = {2, 1, 2, 1} x2(n) = {1, 2, 3, 4}.

Perform Circular convolution : x1(n) = {2, 1, 2, 1} x2(n) = {1, 2, 3, 4}.