Join us if you want to prepare for the NABCEP ENTRY LEVEL EXAM. We will offer this course from May 23-27 at GEXPRO,
Photovoltaic Systems Training, hosted by Gexpro, Duluth, GA May 23-27, 2016
THE COURSE WILL BE HELD AT:
1640 Satellite Blvd | Duluth, GA 30097, from May 23-27, 2016. This course may qualify as continuing education for Electrical Contractors, Professional Engineers and Architects and others.
The course is being taught by Ruth Page-Nelson and Jim Dunlop. Course is hosted at the facilities of GEXPRO in Duluth, GA.
Course Description
This training program covers the fundamentals of solar photovoltaic (PV) systems. This course will cover the NABCEP Entry Level Objectives and will also include a 2 day, Designing and Commissioning component oriented at electrical contractors who want to learn solar. The course is complete with the specification, design and code-compliant installation of PV systems, and intended to develop knowledgeable professionals in the electrical industry to promote the safety, quality and consumer acceptance of PV installations.
Course Objectives
The specific objectives of this training program are to develop the participant’s ability to:
- Conduct site assessments, determine the available solar resource and estimate the performance of PV systems
- Specify components and prepare PV system designs based on customer and site requirements
- Specify appropriate support structure and implement mechanical designs for PV arrays that meet the performance, architectural and structural requirements for given applications
- Implement electrical designs for PV systems that meet the safety, code compliance and functional requirements for given applications
- Conduct acceptance tests and inspections and commissioning for PV system installations
- Evaluate, troubleshoot, and maintain PV systems
Course Format
This training program involves a combination of self-study and assignments prior to the course, followed by five days of classroom instruction and hands-on demonstrations during on-site training. The curriculum and exercises involve the step-by-step process of specifying, designing, installing and commissioning grid-connected PV systems, with a focus on developing the participant’s working knowledge of PV systems and equipment.
Course Materials and Registration
The Photovoltaic Systems textbook and an electronic version of the Photovoltaic Systems Study Guidewill be provided to each participant subsequent to registration. Participants should bring their copy of the 2011 National Electrical Code and a calculator for exercises. Participants are encouraged to complete the following advance reading assignments, exercises and self-study prior to the course. These assignment are detailed here.
The registration fee for this 5 day course is $1595.00 and limited to 25 participants. A minimum of 12 participants are needed to make this course, which will be confirmed with all registrants two (2) weeks before the course dates. Lunches and refreshments are included with registration, and participants are responsible for making their own travel and lodging arrangements. Please do not make travel reservations prior to confirmation.
Questions related to registration should be directed to info@smartgridnorthamerica.com
Course Agenda and Schedule
This training program will be held at Gexpro’s Duluth, GA branch. The course will begin at 8 am and conclude at 5 pm each day. Lunches and refreshments will be provided. Following are the primary topics covered in this course and correspond with chapters in the Photovoltaic Systems textbook:
- Chapter 1: Introduction to Photovoltaic Systems
Solar Technologies – History and Development – Markets and Applications – Industry Sectors - Chapter 2: Solar Radiation
Terminology & Definitions – Geometric & Atmospheric Effects – Solar Power & Energy – Measurements & Data - Chapter 3: Site Surveys and Preplanning
Customer Development – Site Assessment – Locating PV Arrays – Shading Analysis – Project Planning and Preparation - Chapter 4: System Components and Configurations
Major Components – Balance-of-System – System Classifications and Designs - Chapter 5: Cells, Modules and Arrays
Principles of Operation – I-V Characteristics – Response to Irradiance and Temperature – Series/Parallel Connections – Specifications and Ratings - Chapter 6: Batteries
Types and Characteristics – Functions and Features – Specifications and Ratings - Chapter 7: Charge Controllers
Types and Characteristics – Functions and Features – Specifications and Ratings – Sizing - Chapter 8: Inverters
Definitions and Terminology – Types and Applications – Functions and Features – Selection and Sizing – Monitoring and Communications - Chapter 9: System Sizing
Sizing Principles – Interactive vs. Stand-Alone Systems – Calculations and Software Tools - Chapter 10: Mechanical Integration
Design Considerations – Array Mounting Configurations – Structural Loads – Installation - Chapter 11: Electrical Integration
Terminology and Definitions – Circuit Design Requirements – Specifying Electrical Components – Code-Compliant Installation Practices - Chapter 12: Utility Interconnection
Codes and Standards – Utility Considerations – Supply and Load Side Connections – Interconnection Agreements - Chapter 13: Permitting and Inspection
Permit Submittal Guidelines – Plan Review – System Labels – Inspection Checklists - Chapter 14: Commissioning, Maintenance and Troubleshooting
System Commissioning – Maintenance Plans – Diagnostics - Chapter 15: Economic Analysis
Incentives – Value Assessment – Life Cycle Costs Analysis – Financial Tools - Chapter 16: PV System Safety
Hazards and Avoidance – Personal Protective Equipment – Fall Protection – Electrical Safety
Relationship to Certification Programs
Smart North America will register the participants with the NABCEP Entry Level Testing Program. Participants will have the option of taking the Entry Level Exam and successful completion will signify their competency for working safely with solar systems.
The Designing and Commissioning portion is for professionals seeking to understand the codes and regulations for safe Solar Photovoltaic Systems installations and interconnections. Completion of this course will provide continuing education credits for various state licensing for electricians, USGBC, engineers, architects, and solar installer continuing education requirements. Please verify if we provide continuing education to your state programs.
This course and associated self-study program are intended to help prepare participants to pursue and attain the PV entry-level certificate and ultimately the advanced PV installer certification credentials offered by the North American Board of Certified Energy Practitioners (NABCEP), UL University and others.