ADC Types Comparison ADC Types Comparison An Analog-to-Digital Converter (ADC) converts an analog voltage into a digital number. Main ADC types: Flash ADC Successive Approximation (SAR) ADC Dual-Slope ADC Sigma-Delta ADC 1. Flash ADC Concept Flash ADC compares the input voltage with many reference voltages simultaneously. It is the fastest ADC architecture. Block Diagram Input → Comparator Array → Encoder → Digital Output Comparator Formula Comparators = 2ⁿ - 1 Example for 3-bit ADC: 2³ - 1 = 7 comparators Reference Voltages 0.5V, 1.0V, 1.5V, 2.0V, 2.5V, 3.0V, 3.5V Input Example Vin = 2.3V Thermometer code: 1111000 Binary output: 100 Speed Conversion Time ≈ 1 clock cycle Advantages ...

  Constant Voltage Scaling vs Constant Field Scaling Constant Voltage Scaling and Constant Field Scaling 1. Why Scaling Matters In semiconductor device design, especially MOSFET scaling, transistor dimensions are reduced to improve speed and density. Suppose we shrink all linear dimensions by a factor S > 1 . L' = L / S W' = W / S t ox ' = t ox / S Where: L = channel length W = transistor width t ox = oxide thickness The major question becomes: should voltage also scale? 2. Constant Voltage Scaling In constant voltage scaling, device dimensions shrink but supply voltage remains fixed. V' = V L' = L / S Electric Field Electric field is approximately: E = V / L After scaling: E' = V' / L...

Single Pole System - Technical Reference Single Pole System A single-pole system (or first-order system) is a linear time-invariant system whose transfer function contains exactly one pole in the denominator and no zeros in the numerator that can cancel it. Mathematical Definition There are two primary ways to express a first-order single-pole transfer function: 1. Time Constant Form (Standard Form): H(s) = K / (1 + sτ) Where K is the DC Gain and τ (tau) is the time constant. 2. Pole-Location Form: H(s) = A / (s + α) Where -α is the pole location. In this form, the DC Gain is actually A/α . What is a Pole? A pole is the value of s (the complex frequency) that makes the denominator of the transfer function zero, causing the gain to approach infinity. For the system: H(s) = 10 / (s + 5) Set denominator to zero: s + 5 = 0 The pole is at: s = -5 For stability in a continuous system, this pole mus...

  Forward and Reverse Blocking Mode in Thyristor A thyristor (such as an SCR — Silicon Controlled Rectifier) has three terminals: Anode (A), Cathode (K), and Gate (G) . Its operation depends on the polarity of the applied voltage and gate signal. 1. Forward Blocking Mode In this mode: Anode is positive with respect to cathode. Gate signal is not applied. So the SCR is forward biased, but it still does not conduct. What happens internally? Junctions J1 and J3 are forward biased. Junction J2 is reverse biased. Only a very small leakage current flows. VA > VK If the forward voltage exceeds the forward breakover voltage , the SCR turns ON automatically even without gate current. This mode acts like an open switch waiting for a gate pulse. 2. Reverse...

  Quantum Dot, Quantum Wire, Quantum Well, and Bulk These terms describe semiconductor materials based on how many dimensions electrons are free to move in. As the size of a material becomes extremely small (nanometer scale), quantum effects appear and change the electrical and optical properties. 1. Bulk Material (3D) In a bulk material, electrons can move freely in all three dimensions. Electron Motion X-direction → Free Y-direction → Free Z-direction → Free Characteristics Large-sized material No quantum confinement Continuous energy bands Examples Ordinary silicon wafer Copper wire Large semiconductor crystals 2. Quantum Well (2D) A quantum well confines electrons in one dimension while allowing movement in two dimensions. Electron Motion ...

Simulator Setup Methodology Live Plots MATLAB Code Lab Parameter Configuration Input Signal Type Sine Wave Cosine Wave AM Signal DSBSC Signal Message Freq (Hz) Carrier Freq (Hz) Sampling Freq (Hz) Filter Order (N) SNR (dB) Step 1: Initialize Virtual Experiment Cli...

Overview Steps MATLAB Code Results Denoising 128x128 Images via Filter Scaling This technical guide demonstrates how to apply a frequency-domain filter (like a Wiener filter template) originally designed for a 32x32 image onto a 128x128 noisy image using interpolation techniques in MATLAB. By rescaling the filter, we can apply pre-defined noise reduction characteristics to higher-resolution data, provided we account for coordinate shifting and domain transformations correctly. Run the Image Processing Simulator Want to see the Wiener Filter in action with your own parameters? Launch MATLAB Online Simulator Step-by-Step Methodology Step 1: Load or create the noisy image (128x128). We generate a base signal (checkerboard) and add Gaussian noise. Step 2: Load the Wiener filter coefficients designed for ...

C++ Programming Guide: Functions and OOP C++ Programming: Functions & OOP 1. Functions in C++ A function is a block of code that performs a specific task. Functions allow us to reuse code: we define the code once and call it whenever it is needed. #include <iostream> using namespace std; void myFunction() { int x = 2; int y = 5; cout << "Sum of the two numbers is: " << x + y << endl; } int main() { myFunction(); // Calling the function return 0; } Output: Sum of the two numbers is: 7 2. OOP Concepts in C++ OOP (Object-Oriented Programming) is a paradigm that uses Classes (blueprints) and Objects (instances). It provides a clear structure and helps keep code organized. Note: These concepts apply to C++, as standard C does not support classes. ...