Free Download Mastering Schematics Electrical Drawings Episode 4
Published 2/2024
Created by Elite Engineering
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 11 Lectures ( 1h 41m ) | Size: 712 MB
Learn from Professionals, Electrical Power Engineering
What you’ll learn:
NO & NC contact simulation
Push button & its simulation
Bistable / Latch Relay
Step Relay
Motor Control circuit
Timers
Requirements:
Basics of electricity
Description:
Find below the course contents.Understanding Switches and Push Buttons:Define normally open (NO) and normally closed (NC) contacts and their significance in circuit design.Discuss different types of switches and push buttons, including momentary and latching types.Use simulation software to demonstrate the behavior of switches and push buttons in various circuit configurations, such as series and parallel connections.Include real-world examples to illustrate the practical applications of switches and push buttons in control circuits.Bistable or Latch Relay:Provide a detailed explanation of bistable relays, also known as latching relays, and their operation.Describe how bistable relays maintain their state even after power is removed.Utilize simulation software to simulate bistable relay circuits and demonstrate how they can be used in practical applications such as memory circuits or toggle switches.Offer troubleshooting tips and common issues associated with bistable relays.Step Relay and its Operation:Introduce step relays and their role in controlling sequential operations in circuits.Explain the principle of operation for step relays, including how they advance through multiple positions.Provide examples of applications where step relays are used, such as conveyor belt control or machine sequencing.Guide students through simulation exercises to create and analyze step relay circuits, highlighting the sequential nature of their operation.Timer Circuits:Start with an overview of timers and their importance in automation and control systems.Differentiate between on-delay and off-delay timers, explaining their respective functions and applications.Demonstrate how to design timer circuits using simulation software, including setting time intervals and adjusting parameters.Showcase real-world examples where timer circuits are used for tasks such as lighting control or motor sequencing.Seal-In Circuit:Define seal-in circuits and their purpose in maintaining circuit continuity or latching relay states.Discuss different configurations of seal-in circuits, such as feedback loops or holding circuits.Use simulation software to illustrate the behavior of seal-in circuits in practical applications, emphasizing their role in maintaining system stability.Address common challenges and troubleshooting techniques for seal-in circuits.DC Motor Control Circuits:Provide an overview of DC motor control techniques, including speed control and direction control.Explain the components of a basic DC motor control circuit, such as relays, switches, and motor drivers.Guide students through the design and simulation of DC motor control circuits using software, demonstrating how to vary speed and direction.Showcase examples of real-world applications where DC motor control circuits are used, such as robotic systems or industrial automation.DC Motor Control Circuit Using Step Relay:Combine the concepts of step relays and DC motor control to create more complex control systems.Explain how step relays can be integrated into DC motor control circuits to achieve sequential operations or multi-step processes.Provide hands-on simulation exercises where students design and analyze DC motor control circuits incorporating step relays.Encourage experimentation with different configurations and parameters to understand the impact on circuit performance.DC MCB Status Supervision & DC Supply Supervision:Discuss the importance of monitoring and supervising DC circuits for safety and reliability.Explain methods for supervising the status of DC circuit breakers (MCBs), such as current sensing or voltage monitoring.Demonstrate how to design and simulate DC supply supervision circuits to detect faults or deviations from normal operating conditions.Provide case studies or examples of critical applications where DC supply supervision is essential, such as battery management systems or renewable energy systems.Throughout the course, encourage active participation from students through interactive simulations, hands-on exercises, and real-world examples. Additionally, offer supplementary materials such as textbooks, articles, or online resources to support deeper understanding and self-directed learning.
Who this course is for:
Technicians, students engineers
Homepage
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