SOLAR DESIGN EXPERT
Course Overview & Core Features
Duration: 3 Months (Professional Training).
Core Objectives: Design better solar systems, maximize energy yield, optimize performance, and build a green career.
Key Features: Expert instructors, practical hands-on training, real-world projects, software lab access, certificate after completion, and job assistance & support.

Master Industry-Leading Softwares
The training covers four critical software platforms used in the renewable energy market:
HelioScope: Used for advanced 3D design, shading analysis, energy production estimates, and bankable reports.
SketchUp: Used for 3D modeling, accurate layouts, component libraries, and realistic visualizations.
PVsyst: Used for global energy simulation, performance analysis, financial analysis, and detailed reporting.
AutoCAD: Used for precise structural/electrical drawings, Single Line Diagrams (SLD), electrical design, and technical documentation.
Course Contents (16 Learning Modules)
The syllabus transitions systematically from core engineering theory to fully integrated system designs:
Solar Energy Fundamentals: Basics, technologies, and PV systems.
Site Assessment & Analysis: Location, climate data, and load analysis.
HelioScope – 3D System Design: Layout, shading, and optimization.
SketchUp – 3D Modeling: Building modeling, PV layout, and visualization.
PVsyst – Energy Simulation: System simulation and yield analysis.
System Sizing & Component Selection: Modules, inverters, and Balance of System (BOS).
Electrical Design with AutoCAD: SLD, cable sizing, and detailed drawings.
Performance & Loss Analysis: Performance Ratio (PR) analysis and loss diagrams.
Financial Analysis: Cost estimation, Return on Investment (ROI), and payback periods.
Report Generation: Technical reports and project proposal reports.
Project Documentation: Drawings, engineering calculations, and Bill of Quantities (BOQ).
Grid-Tied System Design: On-grid setups, net metering, and standards.
Off-Grid System Design: Battery sizing and load management.
Hybrid System Design: PV + Battery + Generator integration.
Real World Projects: Case studies and practical design projects.
Final Assessment & Certification: Formal assessment and certificate distribution.
Project Types You Will Work On
The course simulates actual industry demands by training students on various project formats:
Residential Solar Systems
Commercial Solar Systems
Utility-Scale Solar Plants
Off-Grid Solar Systems
Hybrid Solar Systems
- Online Session
- On Campus Lecture + Practical
- Video Lecture Available
- Urdu & English