Professional Electrical Electronics Instrumentations and Control
Description
Professional Electrical Electronics Instrumentations and Control
Course Description
This comprehensive course is designed to equip students with the knowledge and skills required to design, install, operate, and maintain electrical, electronics, and instrumentation systems used in various industries.
Key Topics
1. *Electrical Fundamentals*: Circuit analysis, electrical machines, and power systems.
2. *Electronic Devices and Circuits*: Semiconductor devices, amplifiers, and digital electronics.
3. *Instrumentation and Measurement*: Sensors, transducers, and data acquisition systems.
4. *Control Systems*: Feedback control, programmable logic controllers (PLCs), and SCADA systems.
Course Highlights
1. *Hands-on Training*: Practical experience with industrial equipment and software.
2. *Industry-Relevant Curriculum*: Alignment with industry standards and best practices.
3. *Expert Instruction*: Training by experienced professionals with industry expertise.
Career Opportunities
1. *Control Systems Engineer*: Design and implementation of control systems.
2. *Instrumentation Engineer*: Design, installation, and maintenance of instrumentation systems.
3. *Electrical Engineer*: Design, installation, and maintenance of electrical systems.
Certification
Upon completion, students will receive a certificate from APN Education Services and Al-Hikmah Polytechnic, recognizing their expertise in Professional Electrical Electronics Instrumentations and Control.
Partner Institutions
- APN Education Services
- Al-Hikmah Polytechnic
Contact Information
For more information, please contact us at [insert contact details].
What will you learn
Requirements
Lessons
- 89 Lessons
- 21:51:22 Hours
- Electric Circuit Analysis: Ohm's Law, Kirchhoff's Laws 01:17:34
- Electrical Components: Resistors, Capacitors, Inductors 00:11:46
- AC/DC Circuits: Analysis and applications 00:02:57
- Digital Electronics: Logic gates, counters, and registers 00:15:14
- Signal Conditioning: Amplification, filtering, and conversion 00:47:46
- What Is Firewall ? | Firewall Explained | Firewalls and Network Security 00:05:39
- Control System Fundamentals: Feedback control, stability analysis 00:10:44
- Stability Analysis in Control System 00:22:42
- Feedback Control in Stability Analysis 00:03:07
- Control Systems: Feedback control, open-loop, and closed-loop 00:08:22
- Laplace Transform: Analysis of control systems 00:07:17
- Stability Analysis: Routh-Hurwitz criterion and root locus method 00:12:57
- Routh-Hurwitz Criterion Use Cases 00:13:09
- Routh-Hurwitz Criterion Beyond Stability 00:11:59
- PLC Fundamentals: Architecture, programming, and applications 00:01:39
- PLC: programming Logic Control Explained 00:15:11
- Handheld: Practical Programming of PLC 00:20:20
- Practical steps in Programming PLC? 00:09:50
- Learn PLC Wiring and Programming 00:08:02
- Ladder Logic Programming: Design and implementation 00:31:46
- Simple PLC Project: PLC Examples with Ladders Diagram 00:24:20
- Simple PLC Project: PLC Examples with Ladders Diagram 00:24:20
- PLC Interfacing: Input/output devices and communication protocols 00:05:27
- PLC Interfacing: communication protocols 00:12:24
- Automation Principles: Types of automation, benefits, and applications 00:02:36
- Modern Day Automation 00:10:57
- Industrial Communication Networks: Fieldbus, Ethernet, and wireless communication 00:16:55
- SCADA Systems: Principles and applications 00:08:09
- Practical applications SCADA Systems 00:07:11
- Design Principles: Functional design, detailed design 00:04:12
- Instrumentation and Control System: Design Small Plant 00:08:20
- P&ID Development: Principles and best practices 00:07:36
- Principles of P&ID Development: How to Read PFDand Create, Interpret P&ID 00:20:12
- Control System Design: Principles and applications 00:03:13
- A real Control System Design Walk through 00:26:58
- Power Generation and Transmission: Principles and systems 00:17:44
- Power Transmission and Distribution 00:02:05
- Distribution Systems: Design and operation 00:03:44
- Distribution System Components and Operations Part 1 00:29:11
- Distribution System Components and Operations Part 2 00:21:02
- Power Quality: Issues and mitigation techniques 00:03:13
- Power Quality Troubleshooting 00:15:45
- Power Quality and Management 00:12:56
- Implementing Digital Motor Control 01:11:26
- Electrical Safety: Principles and best practices 01:01:47
- Advanced Control Techniques: Model predictive control, adaptive control 00:12:13
- Advanced Control Techniques: Model adaptive control 00:17:08
- Artificial Intelligence in Control: Applications and benefits 00:05:23
- Application of AI in Electrical Engineering 00:06:05
- How AI is Revolutionizing Instrumentation | Future of Control Systems Explained 00:04:12
- Real-Time Systems: Principles and applications 00:07:55
- Concepts of Real Time Systems part 2 00:05:18
- Industrial Networking: Network architecture, protocols, and devices 00:19:04
- Controls Module 2 - Industrial Control Networks 00:11:57
- Cybersecurity for Industrial Control Systems: Why It Matters and How To Stay Protected 00:09:51
- Introduction to Real-Time Embedded System 00:03:13
- Industrial communication protocols explained | Eaton PSEC 00:12:24
- What is the Industrial Internet of Things (IIoT)? 00:08:57
- IIoT & Industry 4.0 RANT by Walker Reynolds 00:22:38
- Cybersecurity: Threats, vulnerabilities, and mitigation techniques 00:20:03
- Vulnerability vs Threat vs Risk 00:06:57
- Network Security: Firewalls, VPNs, and access control 00:05:39
- Cybersecurity Architecture: Networks 00:27:31
About instructor
