1643 Electric courses delivered Online

Why Choose 3D AutoCAD Basics to Advanced Training Course? Students learn how to create and modify both solid and surface models. This AutoCAD Training course also teaches students how to present their designs in 3D products and designs. Check our Website Duration: 16 hours Approach: 1-on-1, Book your own day and time. We are open Monday to Saturday 9 am to 7 pm.  How to Book this course? Call us on 02077202581 and we will book the dates and times you like. Flexible Schedule: 1-on-1 Face to Face or Live Online. AutoCAD 3D Training: Comprehensive Course Overview Exploration of 3D Modeling and Imaging Generating 3D Drawings Navigating the 3D Modeling Workspace Crafting 3D Shapes using Solid Tools Extruding Polylines into 3D Forms Isolating Coordinates with Point Filters Navigating and Orienting Your Model Achieving Visual Effects Converting 3D Views into 2D AutoCAD Drawings Advanced 3D Techniques Setting Up AutoCAD for 3D Mastering the User Coordinate System Leveraging UCS Options Utilizing Viewports for 3D Drawing Employing Array Tools Crafting Complex 3D Surfaces Constructing Spiral Forms Developing Surface Models Manipulating Objects in 3D Space Rendering and Visualization of 3D Drawings Introduction to Rendering Rapid Rendering Techniques Simulating Sunlight and Shadows Application and Adjustment of Materials Creating Effects with Lights and Materials Texture Mapping and Adjustments Exploration of Rendering Options Enhancing Views with Cameras Printing Rendered Drawings Simulating Natural Lighting Editing and Visualizing 3D Solids Overview of Solid Modeling Creation of Basic and Complex Solids Editing Solid Forms Improving the 2D Drawing Process Visualization and Analysis of Solids Exploration of 3D Mesh and Surface Modeling Introduction to 3D Meshes and Surfaces Creation and Editing of 3D Meshes Crafting Mesh Surfaces Conversion of Meshes to Solids Understanding and Editing 3D Surfaces Customization of Interface and Tools Customization of Workspaces Personalization of the User Interface Creation of Macros in Tools and Menus Working with Expanded Text Boxes Saving and Managing Customizations Exploration of the Diesel Macro Language Designing Custom Linetypes and Hatch Patterns Management and Sharing of Your Drawings Sharing Drawings Online ePublishing Your Work Managing Drawings with DesignCenter and Tool Palettes Exploring the Drawing Library with Content Explorer Establishment of Office Standards Conversion of Layer Settings https://www.autodesk.co.uk  Download a free 30-day trial of AutoCAD Learning outcomes after completing the AutoCAD 3D course. Professional Presentation: Create dynamic walkthroughs and presentations that effectively communicate your 3D models and designs. Certification: Obtain a certification as proof of your proficiency in AutoCAD 3D modeling, validating your skills in the industry. Mastery of 3D Modeling: Possess comprehensive skills, from fundamental concepts to advanced techniques in 3D modeling. Enhanced Career Prospects: Improve your career opportunities and prospects in various design-related fields such as architecture, engineering, and product design. Realistic Rendering: Be able to create highly realistic visualizations that enhance the quality of your designs. Practical Hands-On Experience: Gain practical experience and confidence in 3D modeling through extensive hands-on practice. Personalized Learning: Benefit from one-on-one attention and tailored training to meet your specific learning needs and pace. Lifetime Email Support: Continue to receive assistance and guidance through lifetime email support, ensuring you are supported even after completing the course. 3D AutoCAD Training Courses Gain confidence and proficiency in AutoCAD. Discover the fundamentals of 3D modeling and object creation in this introductory AutoCAD 3D course. Booking Your Training Course: Experience personalized training with our adaptable 1-on-1 sessions. You have the freedom to customize your schedule by reserving a convenient hour at your discretion. Our booking slots are available from Monday to Saturday, spanning from 9 a.m. to 7 p.m. You can also reach us at 02077202581 to make a booking over the phone. Course Duration: 10 hours "You have the flexibility to divide these 10 hours across multiple days to suit your ideal schedule." Training Method: 1-on-1 (In-person face-to-face or Live Online) Expect personalized attention, tailor-made content, a flexible learning pace, and dedicated individual support throughout your training journey. This hands-on course provides ample opportunities to experiment with newly acquired techniques and seek answers to your questions. Key Features: An introductory course tailored to AutoCAD 3D's essential features. Abundant one-on-one guidance and dedicated question time. Friendly expert trainers, small class sizes, and a comfortable learning environment. Comprehensive course materials and additional resources. Ongoing support and assistance with post-course challenges. What Will You Learn? This course will equip you with the foundational knowledge and workflows necessary to create 3D models within AutoCAD 3D. You will delve into the creation and modification of both solid and surface models. Upon completion, you will be able to: Effortlessly fashion intricate shapes by combining simple elements. Precisely extract geometries and dimensions from your creations. Easily customize the view and presentation style of your objects. Is This Course Right for You? No prior experience with AutoCAD 3D is required. This course caters to individuals proficient in working with 2D objects who aspire to construct 3D models of their designs. Gain proficiency in the fundamental tools and functionalities to create precise and professional 2D and 3D drawings, advancing to more complex techniques. Enhanced Efficiency: Discover time-saving strategies, tips, and workflows that will boost your productivity and streamline your design process within AutoCAD 3D. Versatility in Design: Develop the skills needed to undertake a wide range of projects, from architectural plans and engineering drawings to mechanical components and electrical schematics. Industry-Recognized Expertise: Cultivate in-demand skills relevant to architecture, engineering, construction, and manufacturing, paving the way for career advancement and professional development. Accessible Lesson Recordings: Access recorded lessons at your convenience to review and reinforce course material whenever necessary. Continuous Email Support: Benefit from ongoing assistance with lifetime email support, ensuring you have access to guidance, answers, and clarifications even beyond the completion of the course.

The comprehensive Electronic and Electrical Devices has been designed by industry experts to provide learners with everything they need to enhance their skills and knowledge in their chosen area of study. Enrol on the Electronic and Electrical Devices today, and learn from the very best the industry has to offer! This best selling Electronic and Electrical Devices has been developed by industry professionals and has already been completed by hundreds of satisfied students. This in-depth Electronic and Electrical Devices is suitable for anyone who wants to build their professional skill set and improve their expert knowledge. The Electronic and Electrical Devices is CPD-accredited, so you can be confident you're completing a quality training course will boost your CV and enhance your career potential. The Electronic and Electrical Devices is made up of several information-packed modules which break down each topic into bite-sized chunks to ensure you understand and retain everything you learn. After successfully completing the Electronic and Electrical Devices, you will be awarded a certificate of completion as proof of your new skills. If you are looking to pursue a new career and want to build your professional skills to excel in your chosen field, the certificate of completion from the Electronic and Electrical Devices will help you stand out from the crowd. You can also validate your certification on our website. We know that you are busy and that time is precious, so we have designed the Electronic and Electrical Devices to be completed at your own pace, whether that's part-time or full-time. Get full course access upon registration and access the course materials from anywhere in the world, at any time, from any internet-enabled device.  Our experienced tutors are here to support you through the entire learning process and answer any queries you may have via email.

The comprehensive Basics of Electrical Substations has been designed by industry experts to provide learners with everything they need to enhance their skills and knowledge in their chosen area of study. Enrol on the Basics of Electrical Substations today, and learn from the very best the industry has to offer! This best selling Basics of Electrical Substations has been developed by industry professionals and has already been completed by hundreds of satisfied students. This in-depth Basics of Electrical Substations is suitable for anyone who wants to build their professional skill set and improve their expert knowledge. The Basics of Electrical Substations is CPD-accredited, so you can be confident you're completing a quality training course will boost your CV and enhance your career potential. The Basics of Electrical Substations is made up of several information-packed modules which break down each topic into bite-sized chunks to ensure you understand and retain everything you learn. After successfully completing the Basics of Electrical Substations, you will be awarded a certificate of completion as proof of your new skills. If you are looking to pursue a new career and want to build your professional skills to excel in your chosen field, the certificate of completion from the Basics of Electrical Substations will help you stand out from the crowd. You can also validate your certification on our website. We know that you are busy and that time is precious, so we have designed the Basics of Electrical Substations to be completed at your own pace, whether that's part-time or full-time. Get full course access upon registration and access the course materials from anywhere in the world, at any time, from any internet-enabled device.  Our experienced tutors are here to support you through the entire learning process and answer any queries you may have via email.

What you'll get upon enrolling.. 60+ video lessons4+ hours of Theory and PracticalPDF NotesTools ListSetup Points Sheet What's covered.. Setup Theory and Practicals  1 - Tuning up correctly. 2 - Neck Relief & Truss Rod Adjustment. 3 - Action height 1st & 12th fret. 4 - Saddle Radius. 5 – Set the floating Bridge 6 - Intonation. Maintenance Theory and Practicals 1 - Fretboard cleaning/treatment. 2 - Fret Polishing. 3 - Electrics. 4 - General clean. 5 - String up & stretching the strings in. 6 - Pickup Height and adjustment. https://www.guitartechcourses-academy.com/p/guitar-pro-setup

The Revit MEP course (£525), offers you individual learning (One to One) to improve your skills in Revit, and this course extends to 15 hours.

Students who complete PV202 will be able to: Define the purpose of the National Electrical Code (NEC®) and NEC® terminology for PV equipment Determine procedures for proper installation of equipment and conductors, including minimum requirements for working space Examine methods for PV wire management and determine where expansion fittings are required Describe and identify electrical services, including split-phase and three-phase Wye (Y) and Delta (∆) Evaluate electrical service details to collect and record during solar site evaluation Identify options for NEC®-compliant PV system interconnection to the utility grid and determine whether a supply side, load side, or additional service connection is appropriate Identify code-compliant methods for connecting an inverter to an existing AC feeder Calculate PV module voltage based on temperature to ensure compatibility with system components and NEC® Section 690.7, and explore other options for maximum PV system DC voltage calculations Identify NEC® requirements and sizing of disconnects and overcurrent protection devices (OCPDs) in grid-direct PV systems Define inverter grounding configurations Evaluate inverter choices and system configurations, including string inverters, central inverters, and module level power electronics (MLPE) Identify requirements for equipment grounding, equipment grounding conductors (EGC), and grounding electrode conductors (GEC), and size the conductors according to the NEC® Identify common causes of ground-faults and arc-faults Describe ground-fault and arc-fault protection devices Describe benefits and appropriate locations of surge protection devices (SPD) Demonstrate the use of sun charts and perform calculations to determine row spacing and minimize inter-row shading Identify how Codes detailing access for first responders impact PV array roof layout Examine fire classifications that affect racking and module selection Detail NEC rapid shutdown requirements and options for implementation Identify load and structural considerations for low- and steep-slope roof-mounted PV systems Calculate wind uplift force and select appropriate lag bolts Review issues related to planning, design, and installation of ground-mount PV arrays Review PV system circuit terminology, definitions, and conductor types Calculate minimum overcurrent protection device (OCPD) size and conductor ampacity using appropriate adjustment and correction factors Calculate voltage drop and verify system operation within acceptable limits Examine requirements for PV system labeling Calculate the maximum and minimum number of modules per PV source circuit, and number of PV source circuits per inverter Determine size of residential grid-direct PV system based on site and customer-specific considerations including the number and wiring layout of modules, conductor and OCPD sizes, and the AC interconnections Determine the size of a large, multiple inverter, grid-direct PV system based on site and customer-specific considerations, including the quantity and layout of modules and inverters and the AC interconnection Define large-scale PV and review associated NEC® allowances and requirements Describe importance of Data Acquisition Systems (DAS) Identify common DAS equipment and hardware Review DAS design, installation, and commissioning processes and common problems associated with DAS Show how reports can be generated and utilized to remotely assess health of system

Participants perform preliminary system sizing for mechanical and electrical power generation of 50-watt to 100-kilowatt capacities. This training combines class lectures with site tours and lab exercises. Hands-on exercises include: methods of flow measurement, determining head, analyzing and assembling small functioning systems. The class is taught by two highly experienced Micro-hydro installers/instructors. Topics Include: • Learn safety procedures working with electricity • Understand fundamental water hydraulics and hydrostatic pressures. Understand the difference between static and dynamic heads. • Understand the various components of hydroelectric systems • Identify the two major hydro turbine groups (reaction and impulse turbines) • Learn the differences between AC and DC Systems • Develop site analysis skills for measuring water flow and elevation difference (head) • Review 6 different plan examples of hydroelectric system designs • Learn battery design and energy storage techniques • Understand controls for balancing energy production with energy loads • Summarize troubleshooting procedures and resources • Develop maintenance requirements both short and long term • Learn integration techniques for hybrid solar, wind and hydroelectric systems • Review 4 case studies using different turbine types • Learn legal requirements for hydroelectric systems including FERC permits, water rights and stream alteration.

Multimode system configurations Load analysis and battery bank sizing PV array sizing Specifying multimode inverters Advanced multimode functions Code compliance, best practices, and installation considerations Charge controllers for multimode systems DC coupled multimode battery backup design example AC coupled system design considerations AC coupled multimode battery backup design example Energy Storage Systems (ESS) overview ESS residential sizing example Large-scale multimode system design and use cases   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.

Stand-alone system configurations Charge controller and array considerations RV system design example DC lighting system design example Clinic system design example Code compliance and best practices for stand-alone systems Advanced battery-based inverters Generator sizing DC coupled stand-alone residential system design example AC coupled stand-alone microgrid system design example Large-scale microgrid considerations and case studies Flooded battery maintenance considerations Stand-alone PV system commissioning and maintenance 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.

Students who complete PV203 will be able to: Recognize demand and PV production curves Identify the common types of PV systems and their major components Describe DC and AC coupled systems Discuss load profiles and modes of operation, including: peak load shaving, time-of-use, zero-sell, self-consumption prioritization, demand-side management Introduce utility-scale storage and microgrids Explain the relationship between real power, apparent power, and reactive power Complete a load estimate for different system types and for seasonal loads; evaluate electrical requirements of loads Identify phantom loads and efficiency upgrades Estimate starting surge and power factor requirements Describe the differences when sizing battery-based systems compared to grid-direct systems Choose a peak sun hour value based on design criteria for various systems Review battery basics and terminology Describe and compare different battery chemistries and technologies Find the capacity and voltage of different batteries; determine state of charge List safety precautions and hazards to be aware of when working with batteries; list appropriate personal protective equipment (PPE) Identify appropriate battery enclosures Calculate values for current, voltage, and energy for different battery bank configurations Review battery bank design parameters Complete a lithium-ion battery bank design example Review and compare different design example costs List features, options, and metering available for different types of battery chargers Explain basics of lithium battery charging Compare generator types and duty cycle ratings, including fuel options Identify specifications critical for choosing appropriate battery-based inverters Discuss different overcurrent protection devices and equipment disconnects and when/where they are required Define the maximum voltage drop slowed for the proper functioning of a battery-based PV system Identify safe installation procedures List basic commissioning tests which should be completed before and after a system is operating