Why Choose AutoCAD Electrical Training Course | Bespoke? Course Link Master electrical drawings, schematics, and layouts. Utilize symbol libraries and automated circuit design. Access recorded lessons and lifetime email support. "Say goodbye to group classes and hello to 1-on-1 Courses. Dial 02077202581 or WhatsApp 07970325184 to reserve your dates. Duration: 16 hrs. Method: 1-on-1, Personalized attention. Schedule: Tailor your own hours of your choice, available from Mon to Sat between 9 am and 7 pm. AutoCAD Electrical Training Course: Specialized electrical CAD design skills with precision. Streamlined workflows for efficient design. Consistent adherence to industry standards. Increased productivity in electrical design. Enhanced collaboration with other professionals. Access to recorded lessons for review. Lifetime email support for ongoing assistance. Learn AutoCAD for electrical design. Enroll now and create accurate and professional electrical drawings with confidence. Choose in-person or live online sessions. AutoCAD Electrical Training Course: Specialized electrical CAD design skills with precision. Streamlined workflows for efficient design. Consistent adherence to industry standards. Increased productivity in electrical design. Enhanced collaboration with other professionals. Access to recorded lessons for review. Lifetime email support for ongoing assistance. Learn AutoCAD for electrical design. Enroll now and create accurate and professional electrical drawings with confidence. Choose in-person or live online sessions. AutoCAD Electrical Course Content: Introduction to AutoCAD Electrical Software: Overview and features of AutoCAD Electrical Understanding the software interface and tools Project file structure and management Layout and Navigation: Navigating the AutoCAD Electrical workspace Creating new project files and using attribute editors Understanding WDD, WDX, and WDF project files Exploring the Project Manager interface and attribute editors Electrical Diagram Drawing: Numbering and titling wires in diagrams Labelling components Utilizing diagram symbol libraries Creating and editing Electrical Control Circuits (ECC) Component dialog box and Circuit Scale dialog box Introduction to Programmable Logic Controllers (PLCs) and Integrated Systems: PLC Symbols and Concepts Inserting Programmable Logic Controllers (PLCs) into diagrams Adding PLC Units to diagrams Working with PLC Input and Output points and circuits Understanding PLC-based classification Using the Spreadsheet to PLC Input and Output Points utility Custom and Bespoke Symbols: Creating custom symbols for Switches, Wires, Contactors, Motors, Transformers, etc. Specifying symbol conventions and standards Offline and online usage of AutoCAD Electrical databases Drawing for Terminals and Plans: Implementing Terminal symbols in diagrams Handling terminal plans and locations Working with compound level terminals and locations Utilizing the Component command for single and multiple components Managing Jumpers and wiring Modifying Terminal Strips and Dual In-Line Packages (DIP) Understanding DIN Rail, Electrical Enclosure, Circuit Breakers, and Electrical Equipment Generating PDFs and Reports: Exporting drawings to PDF format Organizing report templates Automating the generation of reports Creating Electrical Audit Reports This AutoCAD Electrical course provides comprehensive knowledge of the software, focusing on electrical diagram drawing, symbol creation, PLC integration, terminal planning, and report generation. Participants will gain the skills needed to efficiently design electrical systems using AutoCAD Electrical software. Upon completing the AutoCAD Electrical course, participants will master the intricacies of the software. They will adeptly create accurate electrical diagrams, seamlessly integrate PLCs, design personalized symbols, strategize terminal layouts, and produce reports with precision and efficiency. Armed with these skills, graduates will possess the expertise to confidently design complex electrical systems. This proficiency opens avenues in various job roles such as Electrical Design Engineer, CAD Technician, Control Systems Designer, or even Project Manager in industries like manufacturing, automation, and engineering consultancy.
Why Learn Autodesk AutoCAD | 3ds Max Training Course? Course Link 3ds Max serves as a powerful tool in architectural modeling, product design, games and films. Engaging with 3ds Max tutorials proves invaluable, particularly for game designers, as it can significantly enhance their professional growth and career prospects. Duration: 16 hrs Method: 1-on-1, Personalized attention. Schedule: Tailor your own schedule by pre-booking a convenient hour of your choice, available from Mon to Sat between 9 am and 7 pm. AutoCAD and 3ds Max Training Course: Tailored Learning Experience: Benefit from personalized, one-on-one training tailored to your individual needs and learning pace. Flexibility in Learning: Choose between attending in-person sessions or participating in live online classes, granting you the flexibility to learn from anywhere at your convenience. Accessible Lesson Recordings: Access recorded lessons to revisit concepts, practice techniques, and reinforce your understanding whenever you need. Ongoing Email Support: Receive continuous assistance and expert guidance through lifetime email support, ensuring you never feel left behind in your learning journey. Learn from Certified Tutors and Industry Experts: Be educated by experienced professionals proficient in both Autodesk AutoCAD and 3ds Max, providing valuable insights into industry best practices. Complimentary Career Advice: Take advantage of our career advisory services to receive valuable guidance in navigating your professional path and making informed decisions. Download Autodesk Autocad and 3ds max AutoCAD and 3ds Max Training Course. Course Duration: 16 hours Course Overview: Join our training program to master AutoCAD and 3ds Max. Suitable for beginners and experienced 2D/3D modelers, this course equips you with essential skills to create stunning designs in both 2D and 3D. Course Outline: Part 1: Introduction to AutoCAD Familiarizing with the AutoCAD interface Understanding the drawing environment Mastering basic 2D geometry creation Exploring essential drawing tools and commands Introduction to blocks and symbols for efficient design Part 2: Advanced AutoCAD Techniques Delving into advanced drawing techniques Manipulating and editing 2D geometry like a pro Creating custom symbols and blocks for enhanced productivity Working with text and annotations for clear communication Utilizing layers and line types for organized design Part 3: Plans sections and Elevations Entering the realm of Plans sections and Elevations Crafting Plans and 2D construction detailing precision Modifying and manipulating 2D seamlessly Crafting custom materials and textures for realistic designs Part 4: Introduction to 3ds Max Embracing the 3ds Max interface and workspace setup Mastering navigation within 3ds Max Understanding the viewport for optimized design Exploring basic 3D modeling techniques in 3ds Max Part 5: Materials and Textures in 3ds Max Applying and modifying textures to elevate designs Unraveling the art of UVW mapping for precise texturing Utilizing the material editor for creative freedom Crafting custom materials to suit your design vision Harnessing the power of Vray materials for realistic renders Part 6: Lighting in 3ds Max Introducing various lighting techniques Understanding light properties for impactful designs Setting up lights strategically to enhance scenes Illuminating scenes using Vray lights Part 7: Cameras in 3ds Max Mastering camera systems in 3ds Max Exploring camera properties for cinematic effects Creating animation with cameras for dynamic scenes Utilizing Vray cameras to achieve stunning renders Part 8: Rendering in 3ds Max Unveiling the art of rendering Utilizing Vray Global Illumination for realistic lighting Leveraging Vray Physical Cameras for precise control Enhancing scenes with Vray HDRI Lighting Following a Vray Rendering Workflow for professional results Part 9: Advanced Modeling Techniques Crafting complex geometry with finesse Utilizing modifiers for intricate designs Exploring polygonal modeling for versatile creations Creating organic and inorganic models with expertise Unleashing the potential of advanced modeling techniques Part 10: Projects Applying all learned skills to create real-world scenes Designing a simple interior scene with attention to detail Crafting a captivating exterior scene for visual impact Creating a complex scene with multiple objects and materials Course Requirements: A computer with AutoCAD and 3ds Max installed Basic knowledge of computer operations An interest in 2D and 3D modeling and design
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Students who complete PVOL202 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 (â) 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
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