04:57

Introduction to System Modeling Certification Course

10:44

PE II - ECE Sem VI - 21EC631 Electric Hybrid Vehicle Introductory Session

40:29

Module 3 - Lecture 2 - MVT - Ultracapacitor

20:51

Automotive Systems - Sem V - PE I - Induction PPT - Saurav Mitra

47:50

EHV 23 - Lecture 34 - Parallel Hybrid Drivetrain Motor Design & Other Parameters

53:58

EHV 23 - Lecture 33 - Parallel Hybrid Drivetrain Design of Engine & PPS

01:06:12

EHV 23 - Lecture 32 - Parallel Hybrid PPS and Thermostat Control

47:41

EHV 23 - Lecture 31 - Parallel Hybrid Electric Drivetrain Design

52:12

EHV 23 - Lecture 30 - Series Drivetrain Motor Engine & PPS Design

54:59

EHV 23 Lecture 29 Series Hybrid Drivetrain PPS and Design of Electrical Coupling

44:27

EHV 23 - Lecture 28 - Hybrid Drivetrain Design

48:22

EHV 23 - Lecture 27 - Parallel HEV Drivetrain Architecture

57:23

EHV 23 - Lecture 26 - Hybrid Electric Vehicle Architecture and Series HEV

45:03

EHV 23 - Lecture 25 - Hybrid Electric Drivetrain Basics

46:50

EHV23 - Lecture 23 - Tractive Effort and Vehicle Performance

36:52

EHV 23 - Lecture 24 - Tractive Effort in Normal Driving and Energy Consumption

47:28

EHV 23 - Lecture 22 - Electric Vehicles - Tractive Effort

28:13

EHV 23 - Lecture 21 - Part B - Battery Management Systems (BMS)

26:09

EHV 23 - Lecture 21 - Part A - Regenerative Braking

52:19

EHV 23 - Lecture 20 - Regenerative Braking

50:58

EHV 23 - Lecture 19 - Ultra High Speed Flywheel

54:20

EHV 23 - Lecture 17 - Battery Technology Part 2

01:02:22

EHV 23 - Lecture 16 - Battery Technology Part 1

30:40

EHV 23 - Lecture 18 - Ultracapacitor - Part 2

28:52

EHV 23 - Lecture 18 - Ultracapacitor - Part 1

56:46

EHV 23 - Lecture 11 - DC Motor Drive and Armature Field Control

56:25

EHV 23 - Lecture 10 - Introduction to Electric Drives & DC Motor Principle

28:05

System Modeling - Lecture 28 - Lotka Volterra - Prey Predator Model

01:00:41

CS - FT - Lecture 23 - RH Criterion Complete

01:04:45

CS - FT - Lecture 22 Steady State Error Calculation

01:01:20

CS - FT - Lecture 21 - Steady State Error Analysis - Introduction

56:43

CS - FT - Lecture 20 - RLC Step Response Numerical

48:46

CS - FT - Lecture 19 2nd Order RLC Step Responses

59:59

CS - FT - Lecture 18 - RL and RC Step Response

35:09

CS - FT - Lecture 17 - RL RC 1st Order Natural Response

48:41

CS - Expt 9 - State Variable Modeling Lab - Explanation

48:23

CS - Lecture 55 - State Variable Matrices by MATLAB

52:27

CS - Lecture 54 - Controllability & Observability

55:10

CS - Lecture 53 - Solution of Non Homogeneous Systems

51:01

CS - Lecture 52 - State Transition Matrix Basics & 3 Solved Numerical

01:36:52

CS - Lab 8 - Bode Plot - MATLAB Based Explanation

51:08

CS - Lecture 51 - 2 State Variable Modeling Examples

39:51

CS - Lecture 50 - State Space - More Solved Numerical

42:20

CS - Lecture 49 - Transfer Function and Companion Form

34:32

CS - Lecture 48B - Series RLC Ckt State Space Representation Numerical

36:45

CS - Lecture 48A - State Space Basic Fundamentals

01:01:42

CS - Lecture 47 - Bode Plot - 2nd order & Special Numerical

01:16:50

CS - Lecture 46 - 2nd Order Pole Bode Plot

55:11

CS - Lecture 45 - Bode Plot Numerical

30:06

CS - Lecture 44A - Numerical 1

54:30

CS - Lecture 43 - Bode Plot Basics and One Complete Numerical Solved

53:50

CS - Lecture 42 - Bode Plot Basics

01:36:56

CS - Lab 8 - Bode Plot - Initial Discussion

58:31

CS - Lecture 41 - Root Locus Ends + Bode Plot Starts (Very Important)

51:44

CS - Lecture 40 - Typical Numerical and Effect of Adding of Pole and Zero

54:20

CS - Lecture 39 - Root Locus - 2 Cases with Real and Complex Poles and Zeros

56:56

CS - Lecture 38A - AoD Calculation 3 Numerical

22:06

CS - Lecture 38B - AoA and AoD Calculation - Very Important Numerical

48:12

CS - Lecture 37 - Angle of Departure Calculation - Imaginary Pole Pairs

01:03:59

CS - Lecture 36 - Root Locus Plot with i) 4 Real Poles and ii) 1 real Zero & 2 Real Poles