853 Installation courses delivered On Demand

Define terms used in stand-alone systems Name common applications for stand-alone systems; describe basic component layouts Describe differences between AC and DC coupling State principle elements of a microgrid Define the importance of an accurate load analysis Review load analysis procedures; perform a load analysis based on daily data Review battery bank sizing for lead-acid and lithium-ion battery types Define array sizing variables and how they affect design for both MPPT and non-MPPT charge controllers Explain charge controller types and describe maximum power point tracking and voltage step-down Examine the calculations for PV array sizing Describe the difference between sizing for a non-MPPT and an MPPT charge controller Complete array configuration calculations for a system with a non-MPPT and an MPPT charge controller Summarize the parameters to check when selecting a charge controller Explain the purpose of DC load control and the three ways it can be implemented Identify design variables, advantages, and disadvantages of DC-only PV systems Describe how to size and integrate components for a recreational vehicle (RV) application Identify installation and maintenance considerations specific to mobile applications Identify applications and considerations for DC lighting systems Specify a battery-based inverter given electrical load and surge requirements Describe various configurations for stacking and clustering multiple inverters Examine inverter / charger size considerations Describe multiwire branch circuit wiring and concerns with single-phase supplies Describe the purpose and function of a generator Identify considerations that impact generator selection Solve for location-based performance degradation Specify a generator given electrical load, battery charging, and surge requirements Estimate approximate generator run time List generator maintenance Describe the National Electrical Code (NEC®) Articles that apply to the different parts of PV and energy storage systems (ESS) Identify NEC® requirements for workspace clearances, disconnects, and overcurrent protection devices (OCPD) that apply to PV systems Locate and apply specific requirements for storage batteries, stand-alone systems, and energy storage systems Identify labeling requirements List relevant building and fire codes Review installation considerations and best practices for stand-alone systems as related to batteries, design strategies, monitoring and metering, balance of system (BOS) equipment Review DC-coupled stand-alone residential system design Define operating modes of off-grid AC coupled PV systems Explain charge regulation of AC coupled PV inverters in a stand-alone system Discuss AC coupled PV system design strategies; evaluate equipment options for AC coupled off-grid applications Design a stand-alone microgrid system with PV (AC and DC coupled) and generator power sources Distinguish between isolated and non-isolated microgrids Compare concepts of centralized versus decentralized generation and controls Identify different types of microgrid analysis and planning software Review isolated microgrid use case examples Identify general PPE for battery system maintenance Develop a battery maintenance plan Identify methods to measure battery state of charge Identify common causes of battery problems and how to avoid them Identify PPE for lead-acid battery maintenance Develop a battery maintenance plan for lead-acid batteries Describe how to correctly add water to a flooded lead-acid (FLA) battery bank Identify methods to measure battery state of charge of FLA batteries Define when and why equalization is needed Identify common causes of battery problems and how to avoid them Note: SEI recommends working closely with a qualified person and/or taking PV 202 for more information on conductor sizing, electrical panel specification, and grounding systems. These topics will part of this course, but they are not the focus.

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Upon successful completion of the course, you will receive an instant e-certificate as proof of the comprehensive skill development and competency. Add these amazing new skills to your resume and boost your employability by simply enroling on this course. With this comprehensive Smart Meter Installer Training course, you can achieve your dreams and train for your ideal career. The course provides students with an in-depth learning experience that they can work through at their own pace to enhance their professional development. You'll get a Free Student ID card by enroling in this course. This ID card entitles you to discounts on bus tickets, movie tickets, and library cards. Enrolling on the course will ensure that you land your dream career faster than you thought possible. Stand out from the crowd and train for the job you want with the program. Experts created the Smart Meter Installer Training course to provide a rich and in-depth training experience for all students who enrol in it. Enrol in the course right now and you'll have immediate access to all of the course materials. Then, from any internet-enabled device, access the course materials and learn when it's convenient for you. Start your learning journey straight away with this course and take a step toward a brighter future! Why Prefer this Course? Opportunity to earn a certificate accredited by CPD after completing this Smart Meter Installer Training course Student ID card with amazing discounts - completely for FREE! (£10 postal charges will be applicable for international delivery) Standard-aligned lesson planning Innovative and engaging content and activities Assessments that measure higher-level thinking and skills Complete the program in your own time, at your own pace Each of our students gets full 24/7 tutor support ****Course Curriculum**** Here is the curriculum breakdown of course: >> Smart Meter Installer Course << Module 01: Introduction to Smart Meter This Smart Meter Installer Training module covers the following topics: Smart Grid and Smart Metering The Smart Metering System The Benefits of Smart Meters Potential Role of Smart Meter Installer A guide to your rights and choices Module 02: Designing of Smart Metering System This module covers the following topics: Introduction to Designing of Smart Metering System Basic Operation of Energy Chip Current Sensing Unit Voltage Sensing Unit Calculations Power Quality Measurements Bill Generation, Cost Prediction and Customer Update Architectures of Smart Metering Systems Module 03: Install a Smart Meter This Smart Meter Installer Training module covers the following topics: Installation of SMETS Smart Meter Installation of 50kA-3 Smart Meter Installation of 63A-1 and 63A-3 Smart Meter Installation of 65A-3 Smart Meter Module 04: Meter Installation Guidelines This module covers the following topics: Meter Installation Code of Practice Pre-Installation Installation Visit Post Installation Fault Resolution Complaint Resolution Module 05: Smart Meter Cost and Benefit Analysis This module covers the following topics: Introduction to Domestic Cost and Benefit Analysis Domestic Results Non-Domestic Cost and Benefit Analysis Non-Domestic Results Module 06: Smart Metering Policy Guidelines This Smart Meter Installer Training module covers the following topics: Introduction to Non-Domestic Smart Metering Policy Guidelines Non-Domestic Smart Metering Policy Guidelines Domestic Smart Metering Policy Guidelines New Guidance Existing Guidance Module 07: Smart Meters Act in the UK This module covers the following topics: Powers Special Administration Regime Half-hourly Settlement of Electricity Imbalances Final Provisions Assessment Process Once you have completed all the modules in the Smart Meter Installer Training course, you can assess your skills and knowledge with an optional assignment. Our expert trainers will assess your assignment and give you feedback afterwards. Show off Your New Skills with a Certification of Completion The learners have to successfully complete the assessment of this course to achieve the CPD accredited certificate. Digital certificates can be ordered for only £10. The learner can purchase printed hard copies inside the UK for £29, and international students can purchase printed hard copies for £39. CPD 10 CPD hours / points Accredited by CPD Quality Standards Who is this course for? Is This Smart Meter Installer Training Course Right for You? Anyone interested in learning more about this subject should take this course. This Course will help you grasp the basic concepts as well as develop a thorough understanding of the subject. All are welcome to take this course. There are no prerequisites for enrolment, and you can access the course materials from any location in the world. Requirements The Smart Meter Installer Training program does not require any prior knowledge; everyone may participate! This course is open to anyone who is interested in learning from anywhere in the world. Every student must be over the age of 16 and have a passion for learning and literacy. This 100% online course can be accessed from any internet-connected device, such as a computer, tablet, or smartphone. This course allows you to study at your own speed and grow a quality skillset. Career path After completing this Smart Meter Installer Training Course, you are to start your career or begin the next phase of your career in this field. Our entire course will help you to gain a position of respect and dignity over your competitors. The certificate enhances your CV and helps you find work in the field concerned.

This course covers National Fire Protection Association (NFPA) 855 and UL9540 standards as they relate to design and installation considerations, as well as their intersection with the International Fire Code (IFC), International Residential Code (IRC)and NFPA 1 Fire Code. Overview of applicable fire codes Why fire codes matter ESS fire codes evolution over time (1997-2021) Fire code cycles across the U.S. Fire code requirements by cycle (IRC, IFC, NFPA 1) NFPA 855 requirements for ESS (residential and commercial) UL 9540 listing and UL 9540A testing Summary and wrap-up

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Looking to advance your career in electrical inspection and testing? Our comprehensive 2391-52 Inspection & Testing Online Course is designed for electricians, electrical engineers, and professionals in the field. Gain your City & Guilds qualification with our streamlined approach. Enrol now for just £210.00 and get access to expert guidance and study materials. Prepare at your own pace and excel in your final examinations!

Students who complete the PV301L workshop will be able to: Identify and describe the basic functions of each component in a PV system Describe the configuration of various types of PV systems: PV direct, Stand-alone, PV/hybrid, Multimode, Zero-sell, Micro-grid, Utility-scale energy storage Calculate the capacity & voltage of different batteries Determine the state of charge of a battery by testing voltage and specific gravity List safety precautions & equipment required to work with batteries Demonstrate safe procedures for connecting and disconnecting batteries Demonstrate the process of adding water to batteries Identify appropriate battery enclosures Diagram and wire battery banks in series and parallel configurations, given various system parameters Make cables and lug connections for battery wiring Install temperature sensors on batteries Wire the battery bank for a live system Wire and test charge controllers through the various stages of operation Install and test PWM and MPPT charge controllers Program MPPT charge controllers based on battery and array values Wire and program battery SOC meters in different PV system configurations Set up and operate batteries during bulk, absorption, float, and equalization cycles Describe how maximum power point tracking and voltage step-down affect a PV system Identify some features, options, and metering available on different types of battery chargers Identify appropriate inverter types for different battery-based system configurations Compare available features and capabilities of battery-based inverters Identify specifications critical for battery-based inverters Wire test and program battery based inverters Discuss when and why breakers would be used rather than fuses Use a 3-line diagram to wire a system Discuss the order and perform safe installation practices Demonstrate the order of safe commissioning Demonstrate the order of shut-down and how to establish an electrically safe working environment

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This course covers important solar-plus-storage design and installation requirements for the most recent iterations of the National Electrical Code (NEC 2017 and 2020). The course is intended for industry professionals who are already familiar with grid-interactive systems but want to understand NEC requirements specific to solar-plus-storage systems as demand for energy storage continues to rise. Introduction to interactive solar and solar+storage systems AC- and DC-coupled energy storage systems Introduction to PV and ESS NEC Articles NEC Article 690 (Sections: 690.12, 690.15, 690.55, 690.56, 690.71) NEC Article 706 NEC Article 705 (Sections: 705.1, 705.13, 705.2, 705.5, 705.6, 705.65, 705.7) NEC Article 480 and Article 710 Common design issues and wrap-up

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