Ziegler & Nichols Tuning (CLOSED-LOOP)🎯PID Controller Design (Analog & Digital)💡Complete Tutorial😎💪🔥
In this video, we walk you through the Second Method of Ziegler & Nichols tuning method - also known as the Closed-Loop (Oscillation Response) Method - to design both Analog and Digital PID Controllers.
📌 What’s Covered:
✅ System Identification
🔹 Extracting system parameters from the closed-loop unit step response of a plant at oscillation.
✅ Analog PID Controller Design
🔹 Using Ziegler & Nichols rules to determine PID parameters.
🔹 Deriving the analog PID transfer function.
🔹 Simulating and tuning for improved closed-loop performance.
🔹 Detailed hardware realization using op-amps, resistors, and capacitors.
✅ Digital PID Controller Design
🔹 Reusing system parameters for digital controller design.
🔹 Setting up the difference equation and drawing the realization diagram.
🔹 Simulation and tuning of the digital PID for optimal performance.
📘 This video includes step-by-step procedures, clear explanations, and worked-out examples to help you confidently design and implement PID controllers.
Whether you're a student studying control systems or a practicing engineer sharpening your skills, this video will provide you with a practical, hands-on understanding of PID controller design using the Ziegler-Nichols method.
📌 What You’ll Learn:
✅ The theory behind Ziegler-Nichols tuning
✅ The Ziegler-Nichols method: Closed-Loop (Oscillation Response) Method
✅ How to use the table for Analog and Digital PID controller designs
✅ Step-by-step calculation for a design example
✅ Clear reasoning behind every step and decision
📢 Subscribe for more control systems and engineering tutorials! 🔔
👉 https://www.youtube.com/canbijles/?sub_confirmation=1
🎯 Outline:
⏩ 00:00:00 General Introduction
⏩ 00:05:04 Step 1 & 2: Systems Parameters from Unit-Step Response
⏩ 00:13:01 Step 3: Analog PID Controller Design from Ziegler & Nichols table
⏩ 00:14:51 Step 4: Tuning the Analog PID Controller for Better Performance
⏩ 00:24:35 Step 5: Physical Realization of Analog PID Controller
⏩ 00:32:08 Step 6: Digital PID Controller Design from Ziegler & Nichols table
⏩ 00:45:01 Step 7: Tuning the Digital PID Controller for Better Performance
table
⏩ 00:47:10 Step 8: Implementation of Digital PID Controller
⏩ 00:51:44 Step 9: Comparison Final Design: Analog & Digital PID Controllers
📢 More Videos! 🏆
1️⃣ Ziegler & Nichols Tuning Rules 📉 PID Controller Design Examples! 💡👍: https://youtu.be/9vZSw_xzC9E
2️⃣ Ziegler & Nichols Tuning (OPEN-LOOP) 🎯 PID Controller Design (Analog & Digital)💡Complete Tutorial 😎💪🔥 https://youtu.be/IcH67mRxzLY
3️⃣ Cohen & Coon Tuning Rules | PID Controller Design: https://youtu.be/sl6eackaJlo
4️⃣ Digital Controller Implementation: https://www.youtube.com/playlist?list=PLuUNUe8EVqlkey6tW5mBUmMcsEK5BZyyR
5️⃣ Digital Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqln8g-yPt_2ZEtjH8Faegm3S
6️⃣ Root Locus Design Method for Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqlnY2zKWnx-6nyc6CqyPApDD
7️⃣ Frequency Response Method for Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqlkQ8kvTej5dRfOJ-ARmoi5B
8️⃣ Realization of Controllers: https://www.youtube.com/playlist?list=PLuUNUe8EVqllzviaDLzGk1z4lMbpC7Hmd
9️⃣ Routh-Hurwitz Stability Method: https://www.youtube.com/playlist?list=PLuUNUe8EVqllsZiH66E09u6OAlNUdNpwQ
⚡ CAN Education - Tutoring in Electrical Engineering, Analog Electronics, Power Electronics, Electric Circuits, Control Systems, and Math Courses
⭐ For questions, collaboration or consulting 👇
📧 can.mehmet.tr@gmail.com
☎️ +31616179479
🔗 https://whatsapp.com/channel/0029VajYlHu0bIdkguxq6p2e
🌐 https://www.canbijles.nl
#Ziegler #Nichols #PID #Tuning #Controller #Design #Stability #analog #digital #controlsystems #transient #overshoot #rootlocus #oscillation #matlab #stepresponse #analysis #poles #laplace #transform #routhhurwitz #routh #hurwitz #electricalengineering #proportional #integral #derivative
Copyright © ir. Mehmet Can
No part of this video and text may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying, microfilming, and recording, or in any information storage or retrieval system, without written permission from the owner.
Видео Ziegler & Nichols Tuning (CLOSED-LOOP)🎯PID Controller Design (Analog & Digital)💡Complete Tutorial😎💪🔥 канала CAN Education
📌 What’s Covered:
✅ System Identification
🔹 Extracting system parameters from the closed-loop unit step response of a plant at oscillation.
✅ Analog PID Controller Design
🔹 Using Ziegler & Nichols rules to determine PID parameters.
🔹 Deriving the analog PID transfer function.
🔹 Simulating and tuning for improved closed-loop performance.
🔹 Detailed hardware realization using op-amps, resistors, and capacitors.
✅ Digital PID Controller Design
🔹 Reusing system parameters for digital controller design.
🔹 Setting up the difference equation and drawing the realization diagram.
🔹 Simulation and tuning of the digital PID for optimal performance.
📘 This video includes step-by-step procedures, clear explanations, and worked-out examples to help you confidently design and implement PID controllers.
Whether you're a student studying control systems or a practicing engineer sharpening your skills, this video will provide you with a practical, hands-on understanding of PID controller design using the Ziegler-Nichols method.
📌 What You’ll Learn:
✅ The theory behind Ziegler-Nichols tuning
✅ The Ziegler-Nichols method: Closed-Loop (Oscillation Response) Method
✅ How to use the table for Analog and Digital PID controller designs
✅ Step-by-step calculation for a design example
✅ Clear reasoning behind every step and decision
📢 Subscribe for more control systems and engineering tutorials! 🔔
👉 https://www.youtube.com/canbijles/?sub_confirmation=1
🎯 Outline:
⏩ 00:00:00 General Introduction
⏩ 00:05:04 Step 1 & 2: Systems Parameters from Unit-Step Response
⏩ 00:13:01 Step 3: Analog PID Controller Design from Ziegler & Nichols table
⏩ 00:14:51 Step 4: Tuning the Analog PID Controller for Better Performance
⏩ 00:24:35 Step 5: Physical Realization of Analog PID Controller
⏩ 00:32:08 Step 6: Digital PID Controller Design from Ziegler & Nichols table
⏩ 00:45:01 Step 7: Tuning the Digital PID Controller for Better Performance
table
⏩ 00:47:10 Step 8: Implementation of Digital PID Controller
⏩ 00:51:44 Step 9: Comparison Final Design: Analog & Digital PID Controllers
📢 More Videos! 🏆
1️⃣ Ziegler & Nichols Tuning Rules 📉 PID Controller Design Examples! 💡👍: https://youtu.be/9vZSw_xzC9E
2️⃣ Ziegler & Nichols Tuning (OPEN-LOOP) 🎯 PID Controller Design (Analog & Digital)💡Complete Tutorial 😎💪🔥 https://youtu.be/IcH67mRxzLY
3️⃣ Cohen & Coon Tuning Rules | PID Controller Design: https://youtu.be/sl6eackaJlo
4️⃣ Digital Controller Implementation: https://www.youtube.com/playlist?list=PLuUNUe8EVqlkey6tW5mBUmMcsEK5BZyyR
5️⃣ Digital Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqln8g-yPt_2ZEtjH8Faegm3S
6️⃣ Root Locus Design Method for Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqlnY2zKWnx-6nyc6CqyPApDD
7️⃣ Frequency Response Method for Controller Design: https://www.youtube.com/playlist?list=PLuUNUe8EVqlkQ8kvTej5dRfOJ-ARmoi5B
8️⃣ Realization of Controllers: https://www.youtube.com/playlist?list=PLuUNUe8EVqllzviaDLzGk1z4lMbpC7Hmd
9️⃣ Routh-Hurwitz Stability Method: https://www.youtube.com/playlist?list=PLuUNUe8EVqllsZiH66E09u6OAlNUdNpwQ
⚡ CAN Education - Tutoring in Electrical Engineering, Analog Electronics, Power Electronics, Electric Circuits, Control Systems, and Math Courses
⭐ For questions, collaboration or consulting 👇
📧 can.mehmet.tr@gmail.com
☎️ +31616179479
🔗 https://whatsapp.com/channel/0029VajYlHu0bIdkguxq6p2e
🌐 https://www.canbijles.nl
#Ziegler #Nichols #PID #Tuning #Controller #Design #Stability #analog #digital #controlsystems #transient #overshoot #rootlocus #oscillation #matlab #stepresponse #analysis #poles #laplace #transform #routhhurwitz #routh #hurwitz #electricalengineering #proportional #integral #derivative
Copyright © ir. Mehmet Can
No part of this video and text may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying, microfilming, and recording, or in any information storage or retrieval system, without written permission from the owner.
Видео Ziegler & Nichols Tuning (CLOSED-LOOP)🎯PID Controller Design (Analog & Digital)💡Complete Tutorial😎💪🔥 канала CAN Education
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