Solar PV- NABCEP Exam Advanced MCQs with theory explained

Solar PV: NABCEP Exam Advanced MCQs with theory explained, available at $24.99, has an average rating of 4.75, with 68 lectures, based on 4 reviews, and has 64 subscribers.

You will learn about Solve More than 60 No. of Advanced Questions involving Concepts, Design, Calculations and Troubleshooting related to PV Modules/Systems, Batteries & Inverters Prepare in Hours from Zero to Perfection for the Industry Standard Certification like NABCEP Associate exam confidently in couple of days Learn and Solve Advanced Question while understanding the theory behind each question for NABCE Associate Exams Get your grip and gain confidence in dealing with practical exam questions in regard to Solar PV System Learn Solar PV theories through real exam questions This course is ideal for individuals who are Beginners, Engineers, Technicians or others who are interested to learn sound understanding of Solar PV science and technology or Engineers, Technicians or Professionals who are already in this field, and quickly want to prepare for the Industry Standard Certifications It is particularly useful for Beginners, Engineers, Technicians or others who are interested to learn sound understanding of Solar PV science and technology or Engineers, Technicians or Professionals who are already in this field, and quickly want to prepare for the Industry Standard Certifications.

Enroll now: Solar PV: NABCEP Exam Advanced MCQs with theory explained

Summary

Title: Solar PV: NABCEP Exam Advanced MCQs with theory explained

Price: $24.99

Average Rating: 4.75

Number of Lectures: 68

Number of Published Lectures: 67

Number of Curriculum Items: 68

Number of Published Curriculum Objects: 67

Original Price: $24.99

Quality Status: approved

Status: Live

What You Will Learn

Solve More than 60 No. of Advanced Questions involving Concepts, Design, Calculations and Troubleshooting related to PV Modules/Systems, Batteries & Inverters

Prepare in Hours from Zero to Perfection for the Industry Standard Certification like NABCEP Associate exam confidently in couple of days

Learn and Solve Advanced Question while understanding the theory behind each question for NABCE Associate Exams

Get your grip and gain confidence in dealing with practical exam questions in regard to Solar PV System

Learn Solar PV theories through real exam questions

Who Should Attend

Beginners, Engineers, Technicians or others who are interested to learn sound understanding of Solar PV science and technology

Engineers, Technicians or Professionals who are already in this field, and quickly want to prepare for the Industry Standard Certifications

Target Audiences

Beginners, Engineers, Technicians or others who are interested to learn sound understanding of Solar PV science and technology

Engineers, Technicians or Professionals who are already in this field, and quickly want to prepare for the Industry Standard Certifications

* This Course is systematically and ingeniously designed by a team lead by NABCEP PVIP Certified Processional to help you quickly grasp Essential and Must Learn Theory of Solar Photovoltaic by solving practical problems and questions, which is rarely found in other similar courses. This course consist of advance questions and calculations to build your confidence and help you to pass industry certifications like NABCEP Associate Exam.

* See other Courses offered by the same Instructor at affordable Prices

* This Course is systematically and ingeniously designed by NABCEP PVIP Certified Processional to help you quickly learn about of Solar Photovoltaic System. 

1) This Course shall provide a kick-off platform for you to learn and prepare for the Industry Certifications like NABCEP.

2) This Course will cover various topics related to Solar PV / Systems,  Solar Radiation / Energy, PV Module,  Inverters,  Batteries, DC/AC Circuits, Troubleshooting and others. Efforts have been made that all such topics and questions are covered and comprehensive learning takes pace in couple of hours.

3) This Course comes with a nominal low price, compared to similar courses available in the market, as promotional collateral from us. Quality of the Course is promised at par with other commercially available Courses worth hundred of US$. You definitely going to Save Hundreds of Bucks.

Course Content:

Calculate Voltage in a Cable

Calculate System Power given Standard Solar Irradiance and Module Power

Calculating suitable Combination of PV Modules for a System

Calculating least No of PV Modules for a System

Why Bypass Diodes are used

Different areas in  IV Curve of a PV Module

Understanding Albedo effect

Understanding change in PV Voltage due to temperature

Understanding use of micro-inverter for multiple orientations

Approach to size the PV system for Net Metering

Calculating mppt voltage given 4 No. of source circuits

Understanding charging Voltage of a battery

Maintenance requirements of PV System located in middle east

Limitation of connecting PV System to Service Conductors

Understanding Voltage drop phenomenon in a cable

Calculating maximum possible system size for a given area

Calculating minimum No. of PV Modules for a system

Ground Fault detection by Inverter

Understanding and Calculating Cell Voltage of a PV Module

Calculating No. of Batteries for a given load

Calculating No. of Batteries for a given load connected to an inverter

Calculating Electrical Energy Units (KWh)

What is STC Standard

Understanding Air Mass

Calculating System Power produced given area, efficiency and number of modules

Calculating size of breaker at output of an Inverter

Understanding specifications of a Charge Controller

Understanding location of micro-inverters

Which standard represent Cell temperature

Understanding Inter-Row spacing of PV Modules

Understanding magnetic field around a cable having current

Troubleshooting a System not working on a summer day

How much current passing through human body is dangerous

Optimum Title angle for an Off-Grid System for summer season

Calculating Maximum No. of PV Modules for a System

Safest way to find out the PV Output Current

Calculating Energy Units requirement of a User Load

Understanding worst design for the installation of the PV System

Finding optimum tilt angle of PV Module in a System

Troubleshooting a System where Inverter has indication of Ground Fault

Calculating Maximum No. of PV Modules for a System given various specs

Understanding effect of PV Modules connected in parallel

Troubleshooting Off-Grid PV system often shuts down during winter

Who make requirements for electrical safety for Employees

Understanding longest shadows occurring on PV Modules

Understanding effect due to increase in Solar Irradiance

Understanding PV Standard UL1703

Understanding Magnetic Declination

NEC requirement for PV Modules

Understanding Tools required to survey a  site

Understanding Equinox

Understanding reasons in increase in PV Voltages

What to do if stand-alone PV System designed hardly fulfil the Load requirements

Understanding the critical design month for a PV System

Finding tilt angle of the PV Module for best summer performance

Suitable Tools to check and troubleshoot

What are requirements to replace faulty Inverter

Troubleshooting a PV System System which intermittently shuts down

Optimizing the Power output of PV system due to Module mismatch

Understanding tripping due to circuit breaker at output of an Inverter

Understanding Location of a Disconnect in an Interactive System

Which PV system is difficult to size and why

Understanding requirement of a stand-alone PV system without Charge Controller

Calculating maximum output of a System given system rating, inverter current and others

Maximum Voltage rating of a PV Module

Selecting type of PV system for a remote agriculture pump

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: Bonus Lecture: Basic Concepts of Solar PV Systems in One Hour

Chapter 2: NABCEP Advanced Solved Questions – Theory Explained

Lecture 1: Calculate System Power given Standard Solar Irradiance and Module Power

Lecture 2: Calculating suitable Combination of PV Modules for a System

Lecture 3: Calculate Voltage drop in a Cable

Lecture 4: Calculating least No of PV Modules for a System

Lecture 5: Why Bypass Diodes are used

Lecture 6: Different areas in IV Curve of a PV Module

Lecture 7: Understanding Albedo effect

Lecture 8: Understanding change in PV Voltage due to temperature

Lecture 9: Understanding use of micro-inverter for multiple orientations

Lecture 10: Approach to size the PV system for Net Metering

Lecture 11: Calculating mppt voltage given 4 No. of source circuits

Lecture 12: Understanding charging Voltage of a battery

Lecture 13: Maintenance requirements of PV System located in middle east

Lecture 14: Limitation of connecting PV System to Service Conductors

Lecture 15: Understanding Voltage drop phenomenon in a cable

Lecture 16: Calculating maximum possible system size for a given area

Lecture 17: Calculating minimum No. of PV Modules for a system

Lecture 18: Ground Fault detection by Inverter

Lecture 19: Understanding and Calculating Cell Voltage of a PV Module

Lecture 20: Calculating No. of Batteries for a given load

Lecture 21: Calculating No. of Batteries for a given load connected to an inverter

Lecture 22: Calculating Electrical Energy Units (KWh)

Lecture 23: What is STC Standard

Lecture 24: Understanding Air Mass

Lecture 25: Calculating System Power produced given area, efficiency and number of modules

Lecture 26: Calculating size of breaker at output of an Inverter

Lecture 27: Understanding specifications of a Charge Controller

Lecture 28: Understanding location of micro-inverters

Lecture 29: Which standard represent Cell temperature

Lecture 30: Understanding Inter-Row spacing of PV Modules

Lecture 31: Understanding magnetic field around a cable having current

Lecture 32: Troubleshooting a System not working on a summer day

Lecture 33: How much current passing through human body is dangerous

Lecture 34: Optimum Title angle for an Off-Grid System for summer season

Lecture 35: Calculating Maximum No. of PV Modules for a System

Lecture 36: Safest way to find out the PV Output Current

Lecture 37: Calculating Energy Units requirement of a User Load

Lecture 38: Understanding worst design for the installation of the PV System

Lecture 39: Troubleshooting a System where Inverter has indication of Ground Fault

Lecture 40: Calculating Maximum No. of PV Modules for a System given various specs

Lecture 41: Understanding effect of PV Modules connected in parallel

Lecture 42: Troubleshooting Off-Grid PV system often shuts down during winter

Lecture 43: Who make requirements for electrical safety for Employees

Lecture 44: Understanding longest shadows occuring on PV Modules

Lecture 45: Understanding effect due to increase in Solar Irradiance

Lecture 46: Understanding PV Standard UL1703

Lecture 47: Understanding Magnetic Declination

Lecture 48: NEC requirement for PV Modules

Lecture 49: Understanding Tools required to survey a site

Lecture 50: Understanding Equinox

Lecture 51: Understanding reasons in increase in PV Voltages

Lecture 52: What to do if stand-alone PV System designed hardly fulfil the Load requirements

Lecture 53: Understanding the critical design month for a PV System

Lecture 54: Finding tilt angle of the PV Module for best summer performance

Lecture 55: Suitable Tools to check and troubleshoot

Lecture 56: What are requirements to replace faulty Inverter

Lecture 57: Troubleshooting a PV System System which intermittently shuts down

Lecture 58: Optimizing the Power output of PV system due to Module mismatch

Lecture 59: Understanding tripping due to circuit breaker at output of an Inverter

Lecture 60: Understanding Location of a Disconnect in an Interactive SYstem

Lecture 61: Which PV system is difficult to size and why

Lecture 62: Understanding requirement of a stand-alone PV system without Charge Controller

Lecture 63: Calculating maximum output of a System given system rating, inverter current and

Lecture 64: Maximum Voltage rating of a PV Module

Lecture 65: Selecting type of PV system for a remote agriculture pump

Instructors

electnology: Institute of Electrical Systems
Certified in NABCEP Solar PV, ISA-CAP, PMP and RMP

Rating Distribution

1 stars: 0 votes

2 stars: 0 votes

3 stars: 0 votes

4 stars: 1 votes

5 stars: 3 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!