Ultimate Automatic Control Course Bundle

Welcome to the Ultimate Automatic Control Theory Course for Electrical Engineering — the most complete, practical, and modern course designed to take you from total beginner to advanced control system expert! Whether you're struggling with the basics or looking to master advanced techniques like feedforward decoupling, vector control, and metaheuristic optimization, this course was made for you!

🎓 What You’ll Learn:

✅ Mathematical Modeling of Systems
From Fourier and Laplace transforms to real-world electrical and mechanical modeling.

✅ Block Diagrams & Signal Flow Graphs
Stop getting confused by block diagrams! Learn to simplify complex systems and master Mason’s formula like a pro.

✅ Time Response Analysis (1st & 2nd Order)
Understand your system's response. Rise time, peak time, overshoot, settling time!

✅ Control System Stability & Routh-Hurwitz
Learn to determine system stability with Routh-Hurwitz criteria and steady-state error analysis.

✅ Root-Locus Method
Understand system dynamics, pole-zero movement, and visualize control behavior in MATLAB!

✅ Compensators & PID Controllers
Learn lead, lag, and PID controllers and how to tune PID controllers using Ziegler-Nichols, MATLAB Simulink, and even Particle Swarm Optimization (PSO)!

✅ Frequency Response Mastery
Understand polar plots, Bode plots, and Nyquist criteria. Understand PM, GM, phase shift, and how frequency response translates into system behavior.

✅ Design of Compensators Using Bode Plot
Not just theory — we walk you through real design problems and solve them step-by-step using MATLAB and control strategies.

🔥 Advanced Topics to Supercharge Your Skills 🔥

✅ DC Motor Speed Control Using PI, DC Chopper & Rectifier
Get hands-on with the simulation of real-world systems! Perfect for power and automation engineers.

✅ Scalar & Vector Control Techniques
Learn Clarke & Park transforms, voltage orientation, space vector control, and how to generate switching signals.

✅ Hysteresis Current Control (HCC)
Learn how to use HCC in PV systems with full MATLAB Simulink simulations.

✅ Feedforward Decoupling Control for PV
Master feedforward decoupling control for an inverter with SPWM — all simulated step-by-step in MATLAB!

✅ Optimization in Power Systems
Learn greedy, heuristic, and metaheuristic optimization like PSO and Golden Jackal Optimization (GJOA) to fine-tune your control systems.

✅ Fractional-Order PID Controllers (FOPID)
Take your controller design to the next level with advanced FOPID theory, GJOA tuning, and comparisons with traditional PID systems.

✅ Anti-Windup Techniques & Fault Integration
Understand integral windup, how to fix it with anti-windup methods, and how to simulate fault scenarios with circuit breakers in MATLAB.

💥 Why This Course?

🛑 Tired of shallow YouTube videos and fragmented tutorials?
🛑 Struggling to connect theory with practical control system applications?
🛑 Not confident implementing advanced control systems in MATLAB?

✅ This course solves all of that — with over 200 videos, full simulations, downloadable files, real-world examples, and hands-on MATLAB walkthroughs.

🎁 Bonus:

• Fully downloadable course slides & Simulink files
• Certificate of completion

🌍 Multilingual Subtitles Available

English, Arabic (العربية), Hindi (हिन्दी), German (Deutsch), French (Français), and Spanish (Español)