VKY Academy

computer science

signals and systems

digital electronics

analog electronics

industrial automation

digital signal processing

With the simple concept of ROS, Read a lot Observe a lot and Search a lot VKY Academy has been started with a clear vision to teach the world, how to follow your passion. We have courses on Digital Electronics, Analog Electronics, Signal Processing, VLSI , Verilog,VHDL, MATLAB, Proteus, Eagle, Microwind and DSCH, IoT and etc.

Clippers and Clampers Concepts

Clippers and Clampers Concepts
Basic Electronics Mixed Doubt Session 1

Basic Electronics Mixed Doubt Session 1
DHT Sensor Library

DHT Sensor Library
How to Design a 4x1 Multiplexer using 2x1 Multiplexer Only ?

How to Design a 4x1 Multiplexer using 2x1 Multiplexer Only ?
What is a Multiplexer ? Design of Multiplexer

What is a Multiplexer ? Design of Multiplexer
How to Design a Full Adder Using Two Half Adder? | Digital System Design | Digital Electronics | DEC

How to Design a Full Adder Using Two Half Adder? | Digital System Design | Digital Electronics | DEC
Full Adder Design | Digital System Design | Digital Electronics | DEC

Full Adder Design | Digital System Design | Digital Electronics | DEC
Half Adder Design | Digital System Design | Digital Electronics | DEC

Half Adder Design | Digital System Design | Digital Electronics | DEC
Circular Convolution Using Matrix Method | Digital Signal Processing | Signals and Systems

Circular Convolution Using Matrix Method | Digital Signal Processing | Signals and Systems
Circular Convolution Using Concentric Circle Method | Graphical Method

Circular Convolution Using Concentric Circle Method | Graphical Method
Circular Convolution Using Linear Convolution | Signals and Systems | Digital Signal Processing

Circular Convolution Using Linear Convolution | Signals and Systems | Digital Signal Processing
Parseval's Theorem of DFT Proof | Properties of DFT

Parseval's Theorem of DFT Proof | Properties of DFT
Multiplication or Modulation Property of DFT Proof | Properties of DFT

Multiplication or Modulation Property of DFT Proof | Properties of DFT
Circular Correlation Property of DFT with Proof | Properties of DFT

Circular Correlation Property of DFT with Proof | Properties of DFT
Conjugate Property of DFT with Proof | Properties of DFT

Conjugate Property of DFT with Proof | Properties of DFT
Circular Convolution Property of DFT | DFT Properties Proof

Circular Convolution Property of DFT | DFT Properties Proof
Circular Frequency Shift Property of DFT | DFT Properties Proof

Circular Frequency Shift Property of DFT | DFT Properties Proof
Circular Time Shift Property of DFT | Properties of DFT

Circular Time Shift Property of DFT | Properties of DFT
periodicity Property of DFT | Properties of DFT

periodicity Property of DFT | Properties of DFT
Properties of DFT | Linearity Property of DFT

Properties of DFT | Linearity Property of DFT
Compute 4 point DFT using Radix-2 DIT FFT of the sequence x(n) = {0,1,2,3}

Compute 4 point DFT using Radix-2 DIT FFT of the sequence x(n) = {0,1,2,3}
Radix-2 DIT-FFT (Decimation in Time -Fast Fourier Transform) 8-Point DFT using DIT-FFT | Butterfly

Radix-2 DIT-FFT (Decimation in Time -Fast Fourier Transform) 8-Point DFT using DIT-FFT | Butterfly
Radix-2 DIT-FFT (Decimation in Time -Fast Fourier Transform) 4-Point DFT using DIT-FFT

Radix-2 DIT-FFT (Decimation in Time -Fast Fourier Transform) 4-Point DFT using DIT-FFT
Numerical-1 Inverse Z Transform of Logarithmic Function | Inverse z - transform of log (1-az^-1)

Numerical-1 Inverse Z Transform of Logarithmic Function | Inverse z - transform of log (1-az^-1)
Convolution of Discrete Time Signal | Discrete Convolution Derivation | Properties of Convolution

Convolution of Discrete Time Signal | Discrete Convolution Derivation | Properties of Convolution
causal and Non Causal Systems final | Classifications of Discrete Time Systems | Signals and Systems

causal and Non Causal Systems final | Classifications of Discrete Time Systems | Signals and Systems
Numerical-7,8 | Periodic and Aperiodic Signals | Discrete Time Periodic Signal | Fundamental Period

Numerical-7,8 | Periodic and Aperiodic Signals | Discrete Time Periodic Signal | Fundamental Period
Static and Dynamic Systems | Classifications of Discrete Time Systems | Memoryless and with memory

Static and Dynamic Systems | Classifications of Discrete Time Systems | Memoryless and with memory
Time Variant (TV) and Time Invariant Systems(TIV) | Classifications of Discrete Time Systems

Time Variant (TV) and Time Invariant Systems(TIV) | Classifications of Discrete Time Systems
Linear and Non linear Systems | Classifications of Discrete Time Systems | y(n) = x^2(n)

Linear and Non linear Systems | Classifications of Discrete Time Systems | y(n) = x^2(n)