Design Of Control Panel

ELECTRICAL CONTROL PANEL DESIGN
ELECTRICAL CONTROL PANEL DESIGN
  1. Basic Electrical calculations.
  2. FLC (full load current).
  3. Power factor calculations.
  4. Total connected load.
  5. Selection of motor starters
  6. Selection of switchgears.
  7. Power factor correction methods.
  1. Motor Control Centers (MCC) panels.
  2. Power Control Centers (PCC) panels.
  3. APFC Panels.
  4. AMF Panels.
  5. Power Distribution Panels.
  6. ATS Panels, etc.HVAC

a. Sizing of various compartments in panels.

b. Non compartmental panels.

c. Sizing of Cables & Cable entry.

d. Busbar Routings.

 

e. Cable terminations.

  1. (IP)Ingress Protection.
  2. Switchgear mountings.
  3. Cable supports.
  4. Busbar supports.
  1. Calculation of Weight of the panels.
  2. Powder coating process.
  3. Bending as per IP Protections.
  1. Current carrying capacity.
  2. Total weight of busbar required.
  3. Ratings of busbars.
  1. Motor starters.
  2. ATS Panels.
  3. AMF Panels etc.

a) Projects from leading Industries 

b) Internship

c) Placements Support Assistance 

Syllabus

Control Panel Design ( Syllabus )

Advance Electrical CAD ( Syllabus )

Autocad Basic Electrical ( Syllabus )

TESTIOMONIAL ( What Our Students Says )

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INTRODUCTION

We would like to extend our views towards the Electrical Engineering field. Our faculty being an Electrical Engineer having around sixteen years of industrial/ teaching experience.

After we entered into Electrical design field, we had went deeply into engineering that involves Designing of Electrical Control Panels.We had taken initiate to teaching rather coaching the upcoming electrical engineers, the basics of designing. Keeping this in mind, a course had developed named

Designing of Electrical Control Panels with AutoCAD”.- AutoCAD(Electrical) + Electrical AutoCAD+ Panel Design

 It covers all the basic Calculations of electrical engineering, different types of Electrical Control panels

viz: MCC panels,HVAC Panel, PCC panels, APFC panels, AMF panels, ATSpanels etc.

we wish everybody, those who are from electrical background, should undergo this training, as it helps you to quick start your career as a “Design Engineer”. Since the module covers AutoCAD, AutoCAD Electrical and Designing of electrical control panels,

Anybody who successfully completes the training can join a company as a Design Engineer, NOT as a trainee. Because of the “live projects” from leading industries, one can understand the industrial/technical languages of the clients.

 

 

SYLLABUS CONTROL PANEL DESIGN COURSES

The syllabus for the module are,

  1. Basic Electrical calculations.
  2. FLC (full load current).
  3. Power factor calculations.
  4. Total connected load.
  5. Selection of motor starters
  6. Selection of switchgears.
  7. Power factor correction methods.
  8. Types of Electrical Control Panels.
  9. Motor Control Centers (MCC) panels.
  10. Power Control Centers (PCC) panels.
  11. HVAC Panels
  12. APFC Panels.
  13. AMF Panels.
  14. Power Distribution Panels.
  15. ATS Panels, etc.
  16. HVAC Panel
  17. PLC Panel Concepts
  18. Preparation of General Arrangement (GA) Drawings.
  19. Sizing of various compartments in panels.
  20. Non compartmental panels.
  21. Sizing of Cables & Cable entry.
  22. Busbar Routings.
  23. Cable terminations.
  24. Preparation of Fabrication (GA) Drawings.
  25. (IP)Ingress Protection.
  26. Switchgear mountings.
  27. Cable supports.
  28. Busbar supports.
  29. Fabrication calculations ( CRCA Materials)
  30. Calculation of Weight of the panels.
  31. Powder coating process.
  32. Bending as per IP Protections.
  33. Busbar Calculations. (Aluminum & Copper)
  34. Current carrying capacity.
  35. Total weight of busbar required.
  36. Ratings of busbars.
  37. Power & Control wirings for various Electrical Control Panels.
  38. Motor starters.
  39. ATS Panels.
  40. AMF Panels etc.
  41. Projects (Live Projects from leading Industries)