Organized/Hosted by: 
Solar Energy International
Event Date(s): 
Monday, July 16, 2018 to Friday, July 20, 2018


Solar Energy International Classroom
39845 Mathews Lane
United States
$995.00 USD

PV101 is your gateway to a career in the solar industry.  It all starts with the fundamentals, and a solid understanding of various components, system architectures, and applications for PV systems.  Other topics include site analysis, system sizing, array configuration, and performance estimation; electrical design characteristics such as wiring, overcurrent protection, and grounding; a detailed look at module and inverter specifications and characteristics; mounting methods for various roof structures and ground­mounts; and an introduction to safely and effectively commissioning grid­-direct PV systems.  This course focuses on grid-­direct PV systems, the largest and fastest growing segment of the PV industry, but covers material critical to understanding all types of PV systems.  These core concepts are expanded on in SEI’s upper ­level PV courses, which focus more specifically on particular system types, applications and design methodologies.

What you will learn:

Students who complete the PV101 workshop will be able to perform the following:

  • Differentiate between various renewable energy sources and types of systems
  • Perform power and energy calculations
  • Evaluate utility bills and rate plans, perform a load analysis for a grid-direct system, and compare system production to energy consumption
  • Describe energy efficiency measures that can be implemented to reduce electricity usage and PV system size
  • Analyze different net metering rules, rebates, and incentives that affect the final cost of a PV system
  • Diagram and list the features, applications, and components of the following PV system types:  DC direct, stand-alone, grid-direct, and grid-tied with battery back-up
  • Obtain and apply specifications for PV modules and determine their performance given various environmental and operating conditions
  • Identify various types of digital multimeters and explain how to use them safely
  • Diagram and determine the power, current, and voltage characteristics of PV modules in different series and parallel configurations
  • Determine the magnetic declination, define azimuth and altitude angle and evaluate the shade potential for a given site
  • Estimate energy production of a PV system based on location specifics including orientation and tilt angle
  • List the pros and cons of different mounting systems (ground, pole, roof, and trackers) and determine the number of modules that can fit in a given roof space
  • Given specific site criteria, evaluate what type of inverter is appropriate
  • Decipher balance-of-system equipment specification sheets to determine the critical information needed for system design
  • Design a residential grid-direct system including the array, inverter, circuit conductors, and overcurrent protection
  • Define equipment grounding, system grounding, and components and conductors used for grounding
  • Identify the following wires and components on schematics of residential grid-direct systems: disconnects, inverter, equipment grounding conductors, ungrounded conductors, grounded conductors, the grounding electrode(s), and the AC and DC system grounds
  • Identify potential safety hazards and the proper personal protective equipment for working on grid-direct PV systems
  • List the order of installation, commissioning, and decommissioning of a grid-direct PV system

Both our in-person and online PV101 Courses cover the same curriculum with varying levels of hands-on experience offered in our in-person sessions.

For More Information

Email Address: 
970-527-7657 option 1

Training Information

Training Provider Credentials: 
ISPQ Training Program Accreditation
Registered provider of the NABCEP Entry-Level PV Exam