ETAP Bootcamp Course

Burraq Engineering Solutions is an institute that provides ETAP Bootcamp Course. ETAP Bootcamp Course is a highly regarded training program designed to equip engineers and professionals with in-depth knowledge and practical skills in power system analysis. ETAP, a leading provider of software solutions for electrical power systems, offers the program. The ETAP online Training Bootcamp is conducted in various locations worldwide, including virtual sessions, and consists of courses covering different aspects of power system analysis.

Instructors and Teaching Methodology:

The instructors for the ETAP Bootcamp are highly experienced and experts in the field of power system analysis. They employ a range of teaching methodologies, including lectures, case studies, and hands-on exercises using ETAP software. The training is designed to be interactive, with plenty of opportunities for participants to ask questions, share ideas and experiences, and receive feedback on their work.

ETAP Bootcamp course outline

  1. ETAP Software Installation
  2. Introduction to ETAP Software
  3. How to Create a New Project in ETAP
  4. How to Load the existing Project
  5. Introduction to ETAP Database
  6. ETAP toolbar introduction
  7. One Line Diagram in ETAP
  8. Create your first one-line diagram
  9. Composite Network in ETAP
  10. Customize the library for the relay breaker and fuse
  11. Creating a template and importing it to one line diagram
  12. Load Flow Study Evaluation and Result Analysis
  13. Run Load Analysis on Single Line Diagram
  14. Equipment Evaluation
  15. Voltage Drop Calculations 
  16. Bus Voltages, Cable voltage Drops
  17. Bus Under voltage 
  18. Cable overload 
  19. Cable Sizing Studies
  20. Transformer Overload 
  21. Transformer Sizing
  22. Alert View in ETAP 
  23. Critical and Marginal Conditions in ETAP
  24. Arc Flash and Short Circuit Analysis
  25. Run Short circuit and Arc Flash Analysis
  26. Short Circuit Current Evaluation 
  27. How to Fault a bus 
  28. Edit Study Case 
  29. Motor Start Analysis
  30. Setting up the Motor Rating 
  31. Motor Start static
  32. Setting up the Motor Events in Edit Study Case 
  33. Starting Current and its Plot in ETAP 
  34. Motor Start Dynamic
  35. Setting up the Motor Parameters 
  36. Setting up the Motor Inertia, Load
  37. Motor Start Dynamic using VFD
  38. Breaker Settings 
  39. CT settings 
  40. How to generate a report on ETAP 
  41. Introduction to ETAP Level 2 Training

ETAP Level 1 provides a comprehensive set of electronic engineering software solutions, including load current, short circuit, transient impedance, amplifier synchronization, cable power, optimal power current, etc. Its modular throughput can be customized to meet the needs of any company from small to large power systems. The ETAP real-time function is an integrated suite of electronic software programs that can provide intelligent power monitoring, power management, system optimization, advanced automation, and real-time prediction.

  • ETAP Smart Grid enables sensing applications to use tools for secure network planning, synchronization, and execution. This real-time system can manage, control, virtualize, optimize, and automate power transmission and distribution networks. ETAP Level 1 Training in Lahore is the most conceptual business solution for the design, simulation, implementation, control, optimization, and automation of production, transmission, power distribution, and industrial power systems. Etap Course is designed according to a quality assurance plan and is used as an effective high-level software worldwide. ETAP Software is designed in seven languages and can translate report output into eight languages. As a completely integrated business solution, 

    ETAP Level 1 has been deployed into a real-time power management system to monitor, control, automate, simulate, and optimize the operation of the power system. The ETAP basic software package is a set of core tools, enhanced analysis modules, and engineering libraries, which can be used to create, configure, customize, and manage system models. The speed and simplicity of one-line diagrams use an unlimited number of elements and buses (including small tools and basic components) to build single-phase and three-phase AC and DC networks. The engineering library provides a complete and complete database of published manufacturing equipment data.

  • Embedded analysis module
  • The concept of Kabul
  • Transmission line concept
  • Cable current carrying capacity
  • Cable measurement
  • Cable Management
  • Reduce risk and improve safety
  • Ease and speed of evaluating results and making decisions
  • Multilingual editing
  • Faster than similar real-time solutions
  • Power Management System
  • Energy Management System
  • Production Management System
  • Distribution Management System
  • Intelligent load release
  • Smart network and microgrid solutions
  • Network Analysis-Integrated AC and DC System

    ETAP is a set of fully integrated AC and DC power system analysis tools. Engineers from thousands of companies and electrical organizations around the world use ETAP software in power system design, analysis, maintenance and operation. The DC network uses the same database as the AC module. DC power flow and DC short circuit provide engineers with distraction performance for designing and maintaining DC power systems. Storage and capacity estimation analysis are used to select the most appropriate battery pack and verify the maximum capacity of existing batteries. , And simple simulation within a certain range of standby, control and other DC conditions.

    Real-time monitoring and simulation

    ETAP real-time system is a set of software tools that provide a fully integrated enterprise solution. Through continuous monitoring, simulation, electrical optimization, processing, manufacturing and appropriate management systems, ETAP can maximize the processing of the entire product, reduce losses and increase profits.

    Protection equipment-equipment cooperation, selection

    ETAP protection equipment coordination is a new concept in steady-state and dynamic  equipment coordination, selection protection and testing. This is achieved through the use of smart one-line diagrams, integrated equipment databases, and integrated three-dimensional databases. Protection is a complete integration in ETAP. Module.

    Automatic relay test and transient simulation

    The ETAP automatic relay test and transient simulation system (ARTTS) contains three high-precision test equipment in a set of equipment. ARTTS can test a variety of protection relays including distance relays, electric energy meters, and sensors. ARTTS electric energy system tools use advanced hardware and Software technology is used to test, simulate, and verify the relay, and compare the actual test response with the manufacturer’s data.

    Distribution board system-ANSI and IEC

    The switchboard system module developed for electrical design and engineers combines the graphical user interface and the intelligence of ETAP to simply design and analyze low-voltage power distribution systems. Combined with existing features and advanced functions, the switchboard system is a high-quality The electrical tools you can only see among the leaders of power system analysis software.

    Grounding grid system

    The grounding grid system module allows engineers to quickly and accurately analyze grounding protection. The combination of advanced 3D technology and one-line diagram allows engineers to visualize their grounding system and directly use the short-circuit calculation results. Flexible design methods can quickly and automatically design layouts or very Detailed scheme. Color-coded graphic drawing provides impressive results.

    User-defined dynamic model

    The user-defined dynamic model (UDM) has established and compiled the control block diagram for the ETAP transient stability and generator start-up modules. The UDM module can be used for independent settings of multiple motors in unlimited projects. UDM confirmed load rejection through the model , Load acceptance, terminal bus failure and dynamic response provide independent self-test.

    Cable Thermal Stability Analysis

    Cable thermal stability analysis helps engineers design and operate the maximum potential cable system to provide safe and reliable operation. The advanced graphical interface allows the design of cable duct systems to meet the existing requirements by using accurate calculations to determine the required cable size, physical characteristics and maximum corrected current carrying capacity And future needs. In addition, transient temperature analysis calculates the cable current temperature properties, reducing the risk of damage to the cable system in emergencies

    Cable tension

    Precisely predicting the cable tensile strength is necessary for the cable design itself. This knowledge can avoid underestimated or conservatively estimated design during construction to obtain material capital savings. The cable tensile module calculates multiple cables of different sizes and allows the three-dimensional tensile geometric path of the load A point-to-point calculation method is performed at each elbow and the tension point. Forward and reverse tension calculations determine the best tension direction.

    Control System

    ETAP perfectly combines power analysis and circuit control in one electrical analysis program. Control System Diagram (CSD) simulates the operation sequence of control equipment such as solenoids, relays, control contactors, multi-sequence contactors, and brakes containing excitation conditions The control system diagram can determine the trip and out-of-step voltages, losses, current flow at any time, and comprehensive boundary and critical alarms. The huge database and equipment allow engineers to quickly model and simulate a fixed time delay and the control chain The associated relay action.

    Data Exchange

    The ETAP data exchange module (DataX) is used to input, output, and synchronize data from external data sources and ETAP. Data exchange converts legacy data to ETAP as an interface between ETAP and external software, such as GIS systems, AutoCAD, micro workstations or synchronized ETAP and Other applications. User-defined data mapping. Intelligent error correction and automatic generation of one-line diagrams are the most practical in data exchange.


    The ETAP GIS map adds the corresponding geographic maps of the power generation, transmission, and distribution systems in the electrical one-line diagram. Synchronize relevant electrical equipment information from GIS to ETAP and maintain the relationship between them. You can view GIS maps without limitation in ETAP, and you can also operate GIS maps when using ETAP. The analysis result is displayed in the geographic map as an easy-to-see power system status view in the GIS map.

    • Introduction to course
    • Introduction to ETAP Toolbar
    • Rating Components
    • Presentation Toolbars
    • Harmonic Studies
    • Transient stability analysis
    • Ground Grid System
    • Cable Pulling System
    • Underground raceway system
    • Cable capacity
    • Introduction to the basic concepts of protection in ETAP
    • Control and protection engineering Design
    • Symmetrical Faults Concept in ETAP
    • Unsymmetrical Faults Concept in ETAP
    • Protective Device Coordination Schemes
    • Sequence of Operation
    • Parameter Setting and Adjustment
    • Busbar Differential Protection
    • Transformer differential Protection
    • Transmission Line Protection Concept and Case Design
    • Generator Protection Concept and Case Studies
    • Motor Protection
    • Directional Overcurrent Protection
    • Protective Device Coordination Study
    • Over-current Relay Settings 
    • Sequence of Operation
    • TCC Plot of overcurrent Protection Device
    • Over and under voltage Porte protection and under frequency protection
    • Reverse Power Protection
    • Revision and wizard toolbar
    • DC Load Flow
    • Battery sizing calculation
    • DG System Studies in ETAP
    • Solar Power System
    • Wind Power System
    • Advance Power system study
    • Optimal Power flow and Unbalanced load flow
    • Optimal capacitor placement
    • Capacitor Bank Concept and Case Study Design
    • Switching sequence management
    • Final Project
  • Also, you can take the video course of ETAP from our Lyskills online learning and
  •  Online earning platform. 
  1. UDM Graphic Logic Editor
  2. Designing Generator Exciter System in UDM GLE
  3. Geospatial Diagram
  4. Connecting Geospatial Diagram to Maps
  5. DC Control System Design
  6. AC Control System Design
  7. Designing AC and DC Control Systems
  8. Real Time System
  9. Local Allocation
  10. Voltage Var Optimization and Voltage Control
  11. eTrax Analysis
  12. Switching Sequence Management
  13. Fault Management and service Restoration Mode
  14. Switching Optimization
  15. Optimal Capacitor Placement
  16. Reliability Assessment
  17. Optimal Power Flow
  18. Voltage Stability
  19. Unbalance Short Circuit
  20. Time Domain Flow
  21. Integrated Smart Grid Solution
  22. Power Management System
  23. Advance Distributed System
  24. Microgrid Master Controller
  25. Intelligence control enterprise hardware
  26. Railway Traction System
  27. Data Exchange
  28. Field Data Collector
  29. etapAPP Manager
  30. NetPM
  31. Synchro check relay concepts
  32. Synchro check relay concepts
  33. Auto reclosure concept ETAP case studies
  34. Ground Fault Protection
  35. Motor Circuit Modelling
  36. Scada Integrator
  37. State Estimation
  38. Real Time server
  39. ETAP Enterprise Solution
  40. Real Time Project

ETAP Bootcamp Course

  • Fee: 50,000
  • Duration: 3 Months
  • Timing: 9AM-11AM, 11AM-1PM, 1PM-3PM, 3PM-5PM, 5PM-7PM, 7PM-9PM
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