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4 EMF courses delivered Live Online
Transmission Lines: Design, Analysis and Applications
By EnergyEdge - Training for a Sustainable Energy Future
About this training course Transmission lines and sub-stations are essential components in the electrical power systems. Proper design and maintenance are crucial for transmission lines to maintain a continuous operation. The objective of this 5-day training course is to deal appropriately with control systems, design characteristics and electric & magnetic fields. Participants will gain a better understanding on the corona and gap discharge phenomena, constructional features, and optimization of the transmission lines. Training Objectives By participating in this course, you will be able to: Understand transmission line design and its application Examine different types of conductors and electrical characteristics Explore basic and general transmission line parameters Prevent overvoltage through insulation design Determine surge impedance and corona effects Calculate and measure electric and magnetic fields Comprehend the impact of audible noise and electromagnetic interference Identify interference within the transmission line systems Target Audience The course will greatly benefit the following groups but not limited to: Electrical Engineers Civil Engineers Transmission & Distribution Engineers Substation Operators Safety Engineers Reliability Engineers Facility & Plant Engineers Technical Engineers Design Engineers Plant Supervisors Electrical Contractors Course Level Basic or Foundation Intermediate Training Methods The training instructor relies on a highly interactive training method to enhance the learning process. This method ensures that all participants gain a complete understanding of all the topics covered. The training environment is highly stimulating, challenging, and effective because the participants will learn by case studies which will allow them to apply the material taught in their own organization. Course Duration: 5 days in total (35 hours). Training Schedule 0830 - Registration 0900 - Start of training 1030 - Morning Break 1045 - Training recommences 1230 - Lunch Break 1330 - Training recommences 1515 - Evening break 1530 - Training recommences 1700 - End of Training The maximum number of participants allowed for this training course is 25. This course is also available through our Virtual Instructor Led Training (VILT) format. Trainer Your expert course leader is a professional engineer with extensive experience in power system studies, substation design field-testing, and EHS programs settings for Mining and Electrical Utilities sectors. He was formally the Engineering Manager at GE Canada in Ontario. He received his M.Sc. in electrical engineering from the University of New Brunswick and his MBA from Laurier School of Business in Waterloo. He has managed and executed more than 150 engineering projects on substation design EMF audits and power system studies and analyses, EMF audits and grounding audits, for major electrical utilities, mines, oil and gas, data centers, industrial and commercial facilities in Canada and the U.S. He is a certified professional engineer in the provinces of Ontario and Alberta. He has various IEEE publications, has served as a technical reviewer for many IEEE journals in power systems and control systems, and is the chair of the Industry Application Chapter (IAS) for IEEE Toronto Section. He remains a very active member for the IEEE substation committee of IEEE Std. 81 ground testing (WGE6) and IEEE Std. 80 ground design (WGD7). A certified electrical safety trainer by GE Corporate and a Canadian Standard Association (CSA) committee member at the mining advisory panel for electrical safety, he also taught many technical courses all over Canada to industrial customers, electrical consultants as well as to electrical utilities customers. Highlighted Projects: Various Power System Studies for 345/230 kV Stations - Nova Scotia Power (EMERA) RF audits for Telecom tower and antennas - Cogeco/Rogers Mobile Power System analysis - Powell Canada Structural/Geotechnical Design and upgrades - Oakville Hydro Underground Cables testing and sizing - Plan Group Relay programming and design optimization - Cenovus Canada Different Arc Flash Analysis and BESS Design - SNC Lavalin Environmental site assessment (ESA) Phase I/II for multiple stations - Ontario Electromagnetic compatibility (EMC) assessment for Toronto LRT expansion - MOSAIC Battery energy storage system (BESS) installation at City of London - Siemens Canada EMF audits for 500 kV Transmission Lines - Hydro One EMF audits for 500 kV Transmission Lines - Hydro Quebec AC interference for 138 kV line modeling and mitigations - HBMS Mine POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations
Smart Metering & Power Quality Analytics
By EnergyEdge - Training for a Sustainable Energy Future
About this training course The smart meter or smart grid represents the next-generation electrical power system. This system uses information, data & communication technology within generation, delivery and consumption of electric energy. This 4-day course will equip you with the innovations that are shaping the power generation and distribution systems and will cover topics ranging from Smart Metering Architecture, Cybersecurity, Smart Grid Systems and Power Line Communications. Training Objectives By participating in this course, you will be able to: Comprehend the Smart Grid and Smart Meters architecture Review latest trends and challenges within the Smart Grid Technology Perform analysis on smart electronic meters Comply with regulatory and metering standards Recognize the importance of cybersecurity in smart grids Maximize efficiency, reliability, and longevity of your smart meters and equipment Gain valuable insights into power quality and harmonics Target Audience This course will greatly benefit the following groups but not limited to: Smart Grid managers and engineers Smart Meters managers and engineers Power plant managers Outage managers Maintenance and operations engineers Power regulatory personnel Transmission managers and engineers Distribution managers and engineers IT managers Renewable energy managers and engineers Course Level Basic or Foundation Intermediate Training Methods The training instructor relies on a highly interactive training method to enhance the learning process. This method ensures that all participants gain a complete understanding of all the topics covered. The training environment is highly stimulating, challenging, and effective because the participants will learn by case studies which will allow them to apply the material taught in their own organization. Course Duration: 4 days in total (28 hours). Training Schedule 0830 - Registration 0900 - Start of training 1030 - Morning Break 1045 - Training recommences 1230 - Lunch Break 1330 - Training recommences 1515 - Evening break 1530 - Training recommences 1700 - End of Training The maximum number of participants allowed for this training course is 25. This course is also available through our Virtual Instructor Led Training (VILT) format. Trainer Your expert course leader is a professional engineer with extensive experience in power system studies, substation design field-testing, and EHS programs settings for Mining and Electrical Utilities sectors. He was formally the Engineering Manager at GE Canada in Ontario. He received his M.Sc. in electrical engineering from the University of New Brunswick and his MBA from Laurier School of Business in Waterloo. He has managed and executed more than 150 engineering projects on substation design EMF audits and power system studies and analyses, EMF audits and grounding audits, for major electrical utilities, mines, oil and gas, data centers, industrial and commercial facilities in Canada and the U.S. He is a certified professional engineer in the provinces of Ontario and Alberta. He has various IEEE publications, has served as a technical reviewer for many IEEE journals in power systems and control systems, and is the chair of the Industry Application Chapter (IAS) for IEEE Toronto Section. He remains a very active member for the IEEE substation committee of IEEE Std. 81 ground testing (WGE6) and IEEE Std. 80 ground design (WGD7). A certified electrical safety trainer by GE Corporate and a Canadian Standard Association (CSA) committee member at the mining advisory panel for electrical safety, he also taught many technical courses all over Canada to industrial customers, electrical consultants as well as to electrical utilities customers. Highlighted Projects: Various Power System Studies for 345/230 kV Stations - Nova Scotia Power (EMERA) RF audits for Telecom tower and antennas - Cogeco/Rogers Mobile Power System analysis - Powell Canada Structural/Geotechnical Design and upgrades - Oakville Hydro Underground Cables testing and sizing - Plan Group Relay programming and design optimization - Cenovus Canada Different Arc Flash Analysis and BESS Design - SNC Lavalin Environmental site assessment (ESA) Phase I/II for multiple stations - Ontario Electromagnetic compatibility (EMC) assessment for Toronto LRT expansion - MOSAIC Battery energy storage system (BESS) installation at City of London - Siemens Canada EMF audits for 500 kV Transmission Lines - Hydro One EMF audits for 500 kV Transmission Lines - Hydro Quebec AC interference for 138 kV line modeling and mitigations - HBMS Mine POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations
Certified Data Centre Specialist (CDCS)
By Nexus Human
Duration 3 Days 18 CPD hours This course is intended for The primary audience for this course is an IT, facilities or data centre operations professional working in and around the data centre and having the responsibility to achieve and improve high-availability and manageability of the data centre. Overview After completion of the course the participant will be able to:? Understand the design life cycle of data centres and the stages involved? Discuss the data centre requirements in great level of detail with vendors, suppliers and contractors to ensure that these requirements are met? Validate design plans, quotes and offers proposed by vendors/contractors? Understand redundancy levels for both the data centre design/setup and maintenance? Understand the various building considerations such as bullet proofing, mitigation of seismic activity, fire ratings and thermal stability? Understand how to install a raised floor that meets requirements, avoiding misalignment, level differences and leakage? Understand how to read a Single Line Electrical Diagram to identify and avoid the most common design issues? Choose the correct UPS and parallel configuration, learn and avoid classic parallel installation mistakes? Understand how to calculate battery banks, validate offered configurations to ensure they meet requirements? Understand what distance to keep to avoid EMF issues for human safety and equipment disturbances? Understand the fundamental cooling setup, CFM, Delta-T and other important factors? Understand contamination factors and limitations? Understand full details of fire suppression options, how to calculate gas content and verify installations? Understand how to measure data centre energy efficiency and how to improve it The course will bring participants to the level of a suitable sparring partner with suppliers. They will be able to verify offers provided by vendors for correctness, effectiveness and efficiency. Data Centre Design/Life Cycle Overview Overview of the phases of a data centre life cycle Planning, re-alignment and continuous improvement Standards and Rating Level Definitions Rating level history Difference between Uptime and TIA-942 Rating level definitions Redundancy options (N+1), 2N, 2(N+1) Concurrent Maintainability/Compartmentalisation Example configurations Substation and feed requirements Maintenance options Operational processes guidelines/standards Skill development Building Considerations Building location considerations Floor and hanging loads requirements Fire rating for walls and glass Blast protection Bullet proofing Forced entry protection Advanced Raised Floor & Suspended Ceiling Raised floor installation guidelines Techniques to install a proper and leveled raised access floor Common mistakes Choosing the right tiles and their locations Seismic-mitigating floor constructions Choosing the correct suspended ceiling Advanced Power Power infrastructure layout; Formulas which you should know for the data centre Single Line Electrical diagrams; how to read to ensure key components are present for protection Over current protection devices (MCB/MCCB/VCB/ACB/Fuses) definitions and what to use where Earth Leakage devices (RCB/RCD/ELCB/GFCI/ALCI/RCBO), definitions and what to use where Sizing of protective components Lightning strikes and surge protection devices (TVSS/SPD), how they operate, where to use and how to install Power cabling and cable run considerations PDU/DB setup and minimum requirements Generators; Generator types: Standy/Prime/Continuous Component make up and functions Fuel storage and calculation Paralleling of gen-sets Generator room/area requirements UPS Systems; Required specifications for UPS systems How to read data sheets and select the correct UPS Requirements for parallel configurations and avoid pitfalls such as single point of failures How parallel installation should be done, classic mistakes made by installers and how to avoid these Harmonic Filters; Active/Passive filters and their application Battery Banks; Battery bank terminology Designing battery banks, how to calculate, and double check the battery bank to be installed Battery charging pitfalls and ensuring the right charger is being installed and used Using parallel battery banks; how to properly install them, limitations and risks when using batteries in parallel How to test batteries correctly and make decisions on cell/block or string replacement Battery casing choices; ABS, V0, V1, V2 Alternative energy storage; flywheel, re-usable cell, compressed air UPS, etc. Advanced Electro Magnetic Fields Sources of EMF Difference between single, three phase and bus-bar EMF Options available to measure EMF and how to interpret the results from single-axes and composite measurements Guidance on safe distance for equipment and humans Calculation of EMF attenuation factor for shielding material permeability and saturation factors Advanced Cooling Important definitions; dry-bulb, wet-bulb, dew-point, RH, sensible and latent heat Psychometric chart and ASHRAE recommendations Environmental class definitions and thermal specifications Temperature/humidity measurements guideline Heat dissipation methods Altitude impact on temperature intake to ICT equipment Floor plan setup for effective cooling Differences in tile surface and supporting structure and the air-flow performance impact Rack door construction and the flow performance impact Equipment Delta-T and its impact Optimising air flow Thermal units conversions Calculations for air volume displacement (CFM/CMH) Cooling capacity calculations Air-conditioning selection De- / humidifying options Air conditioning efficiency SHR impact on cost saving Efficiency indicator New cooling principle and techniques (Submerged, VSD/VRF/ECF/water- and air side economisers) Redundancy guidelines for air-conditioners avoiding classic misconceptions and mistakes for meeting ANSI/TIA-942 compliant designs Installation requirements Connections to fire panel and EPO Commissioning of air conditioners Set points and calibration CFD (Computational Fluid Dynamics) Advanced Fire Protection The fire triangle and elements to stop a fire Detection systems in detail (VESDA, VIEW, smoke sensors) Considerations for installation of sensors Proper testing of smoke sensors Water based systems i.e. deluge, wet-pipe, dry-pipe, pre-action and why most of them don't work and how to detect this Details on Inert and Halocarbon systems and how to select the correct system for your data centre How to calculate the gas content ensuring the appropriate level is installed to suppress the fire including safety considerations Other requirements for gas systems such as release times, hold times, pipe install requirements and other important factors Requirements for the fire detection panel Installation verification, methods, what to check and how New advanced fire suppression technologies Design and Install Scalable Networking Cabling System ANSI/TIA942 cabling structure topology ToR, EoR Design Intelligent patching systems Installation best practice such as routing, bending radius, separation from power, containment fill ratio, fiber link loss calculator, bonding and grounding requirement Standard for telecommunications labeling and administration Environmental Specifications and Contamination Control Acoustic noise effects, regulations, specifications and limits Data centre contaminations and classifications Measurements, standards and limits Preventive measures and avoidance Data Centre Efficiency Business drivers to go Green High-availability or Green? Green guidelines and standards How to measure it and what are acceptable numbers compared to the general industry PUE classes defined by Green Grid and issues with PUE Techniques for saving energy in all parts of the data centre i.e. application/system level, cooling, power distribution Mock ExamEXAM: Certified Data Centre Specialist
Certified Data Centre Professional (CDCP)
By Nexus Human
Duration 2 Days 12 CPD hours This course is intended for The primary audience for this course is any IT, facilities or data centre professional who works in and around the data centre and who has the responsibility to achieve and improve the availability and manageability of the data centre. Overview After completion of the course the participant will be able to:? Choose an optimum site for mission-critical data centre based on current and future needs? Describe all components that are important for high availability in a data centre and how to effectively setup the data centre? Name and apply the various industry standards? Describe the various technologies for UPS, fire suppression, cooling, monitoring systems, cabling standards, etc, and to select and apply them effectively to cost-efficiently enhance the high-availability of the data centre.? Review the electrical distribution system to avoid costly downtime? Enhance cooling capabilities and efficiency in the data centre by using existing and new techniques and technologies for the increased cooling requirements of the future? Design a highly reliable and scalable network architecture and learn how to ensure installers apply proper testing techniques? Create effective maintenance contracts with equipment suppliers ensuring the best return on investment? Setup effective data centre monitoring ensuring the right people get the right message? Ensure proper security measures, both procedural and technical, are established to safeguard your company's valuable information in the data centre The course will address how to setup and improve key aspects such as power, cooling, security, cabling, safety, etc., to ensure a high available data centre. It will also address key operations and maintenance aspects. The Data Centre, it?s Importance and Causes for DowntimeData Centre Standards and Best PracticesData Centre Location, Building and Construction Selecting appropriate sites and buildings and how to avoid pitfalls Various components of an effective data centre and supporting facilities setup Raised Floor/Suspended Ceiling Uniform, concentrated and rolling load definitions Applicable standards Raised Floor guidelines Signal Reference Grid, grounding of racks Disability act and regulations Suspended ceiling usage and requirements Light Standards Light fixture types and placement Emergency lighting, Emergency Power Supply (EPS) Power Infrastructure Power infrastructure layout from generation to rack level ATS and STS systems Redundancy levels and techniques Three-phase and single-phase usage Power distribution options within the computer room Power cabling versus bus bar trunking Bonding versus grounding Common Mode Noise and isolation transformers Distribution boards, form factors and IP-protection grades Power quality guidelines Real power versus apparent power How to size and calculate load in the data centre Generators Static and dynamic UPS systems, selection criteria, how they operate and energy efficiency option Battery types, correct selection and testing Thermo-graphics Electro Magnetic Fields Electrical fields and magnetic fields definitions and units of measurements Sources of EMF Effects of EMF on human health and equipment (H)EMP Standards EMF shielding solutions Equipment Racks Rack standards, properties and selection criteria Security considerations Power rail/strip options Cooling Infrastructure Temperature and humidity recommendations Cooling measurement units and conversion rates Sensible and latent heat definitions Differences between comfort and precision cooling Overview of different air conditioner technologies Raised floor versus non-raised floor cooling Placement of air conditioner units and limitations to be observed Supplemental cooling options Cold aisle/hot aisle containment Water Supply Importance of water supply and application areas Backup water supply techniques Designing a Scalable Network Infrastructure The importance of a Structured Cabling System Planning considerations Copper and Fiber cable technology and standards ANSI/TIA-942 Cabling hierarchy and recommendations Testing and verification SAN storage cabling Network redundancy Building-to-building connectivity Network monitoring system requirements Fire Suppression Standards for fire suppression Detection systems Various total flooding fire suppression techniques and systems, their benefits and disadvantages Handheld extinguishers Signage and safety Regulatory requirements and best practices Data Centre Monitoring Data centre monitoring requirements EMS versus BMS Water leak detection systems Notification options and considerations Operational Security and Safety Practices Data centre security layers Physical, infrastructure and organisational security Safety measures and essential signage Labelling Choosing a labelling scheme Recommended labelling practices Network labelling Documentation How to setup proper documentation Document management policies and procedures Cleaning Cleaning practices for the data centre MTBF/MTTR Standards and definitions Calculation models The ?real? value Maintenance Contracts/SLA/OLAEXAM: Certified Data Centre Professional Additional course details: Nexus Humans Certified Data Centre Professional (CDCP) training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the Certified Data Centre Professional (CDCP) course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.
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Show all 15Power Electronics Training Ultimate Bundle Course
By Study Plex
Recognised Accreditation This course is accredited by continuing professional development (CPD). CPD UK is globally recognised by employers, professional organisations, and academic institutions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. Course Curriculum Introduction to Power Electronics Components Introduction to Power Electronics 00:13:00 Uncontrolled Switches 00:17:00 What Is The Benefit of Diode. 00:06:00 Semi-Controlled Switches Part 1 00:09:00 Semi-Controlled Switches Part 2 00:14:00 Semi-Controlled Switches Part 3 00:05:00 What Is The Benefit of Thyristor? 00:05:00 Fully Controlled Switches Part 1 00:17:00 Fully Controlled Switches Part 2 00:10:00 Fully Controlled Switches Part 3 00:12:00 Fundamentals of Rectifier Circuits Overview on Rectifiers 00:02:00 Rectifier Definition 00:01:00 Half Wave Uncontrolled Rectifier with RL Load 00:10:00 StartExample on Half Wave Uncontrolled Rectifier with R Load Part 1 00:06:00 StartExample on Half Wave Uncontrolled Rectifier with R Load Part 2 00:07:00 Half Wave Uncontrolled Rectifier with RL Load 00:10:00 Derivation of Current in R-L Load 00:08:00 Freewheeling Diode (Commutation Diode) 00:03:00 Half-wave R-L Load With FWD 00:09:00 Difference between Continuous and Discontinuous Mode in RL Load 00:07:00 Half Wave RL Load Continuous Mode with FWD 00:06:00 StartExample on Half Wave Uncontrolled Rectifier with FWD 00:07:00 Bridge Full Wave Uncontrolled Rectifier Part 2 00:05:00 Bridge Full Wave Uncontrolled Rectifier Part 2 00:05:00 Quick Revision on Bridge Full-wave Uncontrolled Rectifier 00:06:00 Firing Angle 00:02:00 Half-Wave Controlled Rectifier R Load 00:05:00 Half-Wave Controlled Rectifier R-L Load 00:04:00 Half Wave Controlled R-L Load with FWD 00:06:00 Example 1 00:07:00 Example 2 00:08:00 Example 3 00:13:00 StartExample 4 00:09:00 StartExample 5 00:09:00 Fully Controlled Bridge Rectifier Part 1 00:06:00 Fully Controlled Bridge Rectifier Part 2 00:06:00 Quick Revision on Bridge Full Wave Controlled Rectifier 00:02:00 StartExample 6 00:08:00 Half Controlled Bridge Rectifier 00:08:00 Half Controlled Bridge Rectifier with FWD 00:05:00 StartExample 7 00:07:00 StartExample 8 00:07:00 Performance Parameters 00:04:00 Power Factor 00:04:00 Fundamentals of AC Choppers Introduction to AC Choppers 00:02:00 Definition of AC Chopper 00:05:00 StartSwitching Techniques in AC Choppers 00:06:00 Applications on AC Choppers 00:03:00 Types of AC Choppers 00:02:00 AC Chopper with R Load 00:14:00 Example 1 on AC Chopper with R Load 00:06:00 Example 2 on AC Chopper with R Load 00:04:00 AC Chopper with L Load Part 1 00:13:00 AC Chopper with L Load Part 2 00:06:00 StartExample on AC Chopper with L Load 00:08:00 AC Chopper with RL Series Load 00:20:00 StartExample on AC Chopper with RL Series Load 00:07:00 AC Chopper with RL Parallel Load 00:25:00 StartExample on AC Chopper with RL Parallel Load 00:06:00 AC Chopper with Pure Capacitive Load 00:14:00 StartExample on AC Chopper with Pure Capacitive Load 00:04:00 AC Chopper Loaded by Heavy Rectifier 00:06:00 AC Chopper Loaded by AC Motor with Sinusoidal Back Emf 00:12:00 StartExample on AC Chopper Loaded by AC Motor with Sinusoidal Back Emf 00:08:00 Integral Cycle Control 00:11:00 Example on Integral Cycle Control 00:04:00 Fundamentals of DC Choppers Introduction to DC Choppers 00:02:00 Definition and Applications of DC Choppers 00:05:00 Step Down DC Chopper with R Load 00:12:00 Example on Step Down DC Chopper with R Load 00:08:00 Generation of Duty Cycle 00:09:00 Switching Techniques 00:09:00 Step Down DC Chopper with RLE Load Part 1 00:19:00 Step Down DC Chopper with RLE Load Part 2 00:15:00 Example 1 on Step Down DC Chopper with RLE Load 00:12:00 Example 2 on Step Down DC Chopper with RLE Load 00:02:00 Step Up DC Chopper with R or RL Load 00:09:00 Step Up DC Chopper with RE Load 00:15:00 Example on Step Up DC Chopper with RE Load 00:20:00 Buck Regulator Part 1 00:16:00 Buck Regulator Part 2 00:17:00 Example on Buck Regulator 00:03:00 Boost Regulator 00:23:00 Example on Boost Regulator 00:06:00 Buck-Boost Converter 00:17:00 Example on Buck-Boost Converter 00:05:00 Fundamentals of Inverters Introduction to Inverters 00:02:00 Definition of Inverter 00:04:00 Importance and Applications of Inverters 00:08:00 Single Phase Half Bridge R Load 00:16:00 Single Phase Half Bridge RL Load 00:08:00 Performance Parameters of Inverter 00:05:00 Example on Single Phase Half Bridge 00:10:00 Single Phase Bridge Inverter R Load 00:06:00 Single Phase Bridge Inverter RL Load 00:07:00 Example on Single Phase Bridge Inverter 00:06:00 Three Phase Inverters and Obtaining The Line Voltages 00:15:00 Three Phase Inverters and Obtaining The Phase Voltages 00:17:00 Example on Three Phase Inverters 00:06:00 Single Pulse Width Modulation 00:13:00 Multiple Pulse Width Modulation 00:13:00 Example on Multiple Pulse Width Modulation 00:04:00 Sinusoidal Pulse Width Modulation 00:16:00 Industrial Inverter 00:03:00 Obtain Your Certificate Order Your Certificate of Achievement 00:00:00 Get Your Insurance Now Get Your Insurance Now 00:00:00 Feedback Feedback 00:00:00
Overview This comprehensive course on Electrical Machines for Electrical Engineering will deepen your understanding on this topic. After successful completion of this course you can acquire the required skills in this sector. This Electrical Machines for Electrical Engineering comes with accredited certification from CPD, which will enhance your CV and make you worthy in the job market. So enrol in this course today to fast track your career ladder. How will I get my certificate? You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate. Who is This course for? There is no experience or previous qualifications required for enrolment on this Electrical Machines for Electrical Engineering. It is available to all students, of all academic backgrounds. Requirements Our Electrical Machines for Electrical Engineering is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Having these various qualifications will increase the value in your CV and open you up to multiple sectors such as Business & Management, Admin, Accountancy & Finance, Secretarial & PA, Teaching & Mentoring etc. Course Curriculum 8 sections โข 108 lectures โข 14:20:00 total length โขModule 1- Introduction to Electric Machines: 00:03:00 โขModule 2- Types of Electric Machines and Principle of Electrical Generation: 00:09:00 โขModule 1- Importance and Construction of DC Machines: 00:26:00 โขModule 2- Armature Winding and EMF Equation: 00:40:00 โขModule 3-Solved Example 1: 00:05:00 โขModule 4-Solved Example 2: 00:04:00 โขModule 5-Solved Example 3: 00:07:00 โขModule 6-Solved Example 4: 00:06:00 โขModule 7-Separately Excited DC Machine: 00:21:00 โขModule 8-Shunt and Series DC Machines: 00:25:00 โขModule 9-Solved Example 1 on Separately Excited DC Machine: 00:07:00 โขModule 10-Solved Example 2 on Separately Excited DC Machine: 00:07:00 โขModule 11-Solved Example 3 on Shunt Generator: 00:04:00 โขModule 12-Solved Example 4 on Shunt Generator: 00:07:00 โขModule 13-Solved Example 5 on Series DC Generator: 00:06:00 โขModule 14-Types and Applications of Compound DC Motors: 00:07:00 โขModule 15- Torque-Speed Characteristics and Speed Control of Separately Excited DC Motor: 00:33:00 โขModule 16- Torque-Speed Characteristics of Series DC Motor: 00:08:00 โขModule 17-Solved Example 1 on Speed Control: 00:08:00 โขModule 18-Solved Example 2 on Speed Control: 00:06:00 โขModule 19- Starting of DC Machine: 00:14:00 โขModule 20- Armature Reaction in DC Machines: 00:10:00 โขModule 21-Losses in DC Machines: 00:04:00 โขModule 1- What is a Transformer: 00:02:00 โขModule 2- Importance of Transformer: 00:04:00 โขModule 3-Iron Core of Transformer: 00:04:00 โขModule 4- Magnetic Circuit Inside Transformer: 00:05:00 โขModule 5- Windings of Transformer: 00:03:00 โขModule 6- Why are Windings Made of Copper: 00:01:00 โขModule 7- Classification of Windings: 00:05:00 โขModule 8- Insulating Material and Transformer Oil: 00:02:00 โขModule 9- Conservator of Transformer: 00:03:00 โขModule 10- Breather of Transformer: 00:04:00 โขModule 11- Bushings of Transformer: 00:04:00 โขModule 12- Tap Changer of Transformer: 00:03:00 โขModule 13- Cooling Tubes of Transformer: 00:01:00 โขModule 14- Buchholz Relay of Transformer: 00:02:00 โขModule 15- Explosion Vent: 00:02:00 โขModule 16- Methods of Cooling: 00:03:00 โขModule 17-Types of Transformers: 00:03:00 โขModule 18- Power Transformer and Distribution Transformer: 00:05:00 โขModule 19- Single Phase Core Type Transformer: 00:04:00 โขModule 20-Single Phase Shell Type Transformer: 00:05:00 โขModule 21- 3 Phase Core Type: 00:02:00 โขModule 22- 3 Phase Shell Type: 00:01:00 โขModule 23- Comparison between Shell and Core CSA: 00:01:00 โขModule 24- Comparison between Shell and Core Type: 00:01:00 โขModule 25- Notes: 00:03:00 โขModule 26-Video Explaining The Components in 3D and Real Life: 00:05:00 โขModule 1- Introduction to Magnetic Circuits: 00:02:00 โขModule 2- Induced Emf and Current: 00:04:00 โขModule 3- Ampere Right Hand Rule: 00:04:00 โขModule 4- Magnetic Circuit and Important Definitions: 00:06:00 โขModule 5- Linear and Non Linear Materials: 00:03:00 โขModule 6-Flux Linkage and Reluctance: 00:04:00 โขModule 7- Analogy between Electric and Magnetic Circuits: 00:06:00 โขModule 8- Fringing Effect: 00:02:00 โขModule 9- Example 1 Magnetic Circuits: 00:07:00 โขModule 10- Example 2: 00:03:00 โขModule 11- Example 3: 00:06:00 โขModule 12- Application on Magnetic Circuit - Transformers: 00:04:00 โขModule 1- Introduction to Transformers: 00:02:00 โขModule 2- Construction of Transformer: 00:02:00 โขModule 3-Theory of Operation: 00:04:00 โขModule 4- Ideal Transformer: 00:05:00 โขModule 5-Non Ideal Transformer: 00:02:00 โขModule 6- Effect of Loading on Transformer: 00:03:00 โขModule 7- Transformer Regulation: 00:03:00 โขModule 8- Transformer Losses: 00:03:00 โขModule 9- Transformer Efficiency: 00:05:00 โขModule 10- Transformer Rating: 00:02:00 โขModule 11- Question 1: 00:01:00 โขModule 12- Question 2: 00:02:00 โขModule 13- Question 3: 00:01:00 โขModule 14- Example 1: 00:01:00 โขModule 15- Voltage Relation of Transformer: 00:04:00 โขModule 16- Transformer Exact Equivalent Circuit: 00:06:00 โขModule 17- Concept of Refereeing: 00:04:00 โขModule 18- Approximate Equivalent Circuit: 00:02:00 โขModule 1- Construction and Principle of Operation of Synchronous Generator: 00:29:00 โขModule 2- Principle of Operation of Synchronous Motor: 00:24:00 โขModule 3- Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine: 00:29:00 โขModule 4-Solved Example 1 on Non Salient Machine: 00:05:00 โขModule 5-Solved Example 2 on Non Salient Machine: 00:11:00 โขModule 6-Solved Example 3 on Non Salient Machine: 00:07:00 โขModule 7- Solved Example 4 on Non Salient Machine: 00:04:00 โขModule 8-Solved Example 5 on Non Salient Machine: 00:07:00 โขModule 9-Solved Example 6 on Non Salient Machine: 00:03:00 โขModule 10- Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine: 00:39:00 โขModule 11-Solved Example 1 on Salient Machine: 00:09:00 โขModule 12- Solved Example 2 on Salient Machine: 00:05:00 โขModule 13-Solved Example 3 on Salient Machine: 00:10:00 โขModule 14- Parallel Operation of Two Generators: 00:17:00 โขModule 15- Synchronization of Machine with Grid: 00:10:00 โขModule 1- Construction and Theory of Operation of Induction Machines: 00:27:00 โขModule 2- Equivalent Circuit and Power Flow in Induction Motor: 00:23:00 โขModule 3- Torque-Speed Characteristics of Induction Motor: 00:20:00 โขModule 4- Solved Example 1 on Induction Motor: 00:08:00 โขModule 5-Solved Example 2 on Induction Motor: 00:06:00 โขModule 6-Solved Example 3 on Induction Motor: 00:06:00 โขModule 7-Solved Example 4 on Induction Motor: 00:18:00 โขModule 8-Solved Example 5 on Induction Motor: 00:13:00 โขModule 9- Methods of Speed Control of Induction Motor: 00:27:00 โขModule 10- Methods of Starting of Induction Motor: 00:21:00 โขModule 11-Solved Example on Motor Starter: 00:15:00 โขModule 12- Principle of Operation of Doubly Fed Induction Generator: 00:11:00 โขModule 13-Self Excited Induction Generator: 00:08:00 โขAssignment - Electrical Machines for Electrical Engineering: 00:00:00
Overview This comprehensive course on Power Electronics for Electrical Engineering will deepen your understanding on this topic. After successful completion of this course you can acquire the required skills in this sector. This Power Electronics for Electrical Engineering comes with accredited certification from CPD, which will enhance your CV and make you worthy in the job market. So enrol in this course today to fast track your career ladder. How will I get my certificate? You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate. Who is This course for? There is no experience or previous qualifications required for enrolment on this Power Electronics for Electrical Engineering. It is available to all students, of all academic backgrounds. Requirements Our Power Electronics for Electrical Engineering is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Having these various qualifications will increase the value in your CV and open you up to multiple sectors such as Business & Management, Admin, Accountancy & Finance, Secretarial & PA, Teaching & Mentoring etc. Course Curriculum 6 sections โข 105 lectures โข 15:01:00 total length โขModule 1- Introduction to Power Electronics: 00:13:00 โขModule 2- Uncontrolled Switches: 00:17:00 โขModule 3- What is the Benefit of Diode: 00:06:00 โขModule 4- Semi-Controlled Switches Part 1: 00:09:00 โขModule 5- Semi-Controlled Switches Part 2: 00:14:00 โขModule 6- Semi-Controlled Switches Part 3: 00:05:00 โขModule 7- What is the Benefit of Thyristor: 00:05:00 โขModule 8- Fully Controlled Switches Part 1: 00:17:00 โขModule 9- Fully Controlled Switches Part 2: 00:10:00 โขModule 10- Fully Controlled Switches Part 3: 00:12:00 โขModule 1- Overview on Rectifiers: 00:02:00 โขModule 2- Rectifier Definition: 00:01:00 โขModule 3- Half Wave Uncontrolled Rectifier with R Load: 00:21:00 โขModule 4- Example on Half Wave Uncontrolled Rectifier with R Load Part 1: 00:06:00 โขModule 5- Example on Half Wave Uncontrolled Rectifier with R Load Part 2: 00:07:00 โขModule 6- Half Wave Uncontrolled Rectifier with RL Load: 00:10:00 โขModule 7- Derivation of the Discontinuous Current in R-L Load: 00:08:00 โขModule 8- Freewheeling Diode (Commutation Diode): 00:03:00 โขModule 9- Half Wave R-L Load with FWD: 00:09:00 โขModule 10- Difference Between Continuous and Discontinuous Mode in RL Load: 00:07:00 โขModule 11- Half Wave RL Load with FWD Continuous Mode: 00:06:00 โขModule 12- Example on Half Wave Rectifier with FWD: 00:07:00 โขModule 13- Bridge Full Wave Uncontrolled Rectifier Part 1: 00:07:00 โขModule 14- Bridge Full Wave Uncontrolled Rectifier Part 2: 00:05:00 โขModule 15- Quick Revision on Bridge Full Wave Uncontrolled Rectifier: 00:06:00 โขModule 16- Firing Angle: 00:02:00 โขModule 17- Half Wave Controlled Rectifier R Load: 00:05:00 โขModule 18- Half Wave Controlled Rectifier R-L Load: 00:04:00 โขModule 19- Half Controlled R-L Load with FWD: 00:06:00 โขModule 20- Example 1: 00:07:00 โขModule 21- Example 2: 00:08:00 โขModule 22- Example 3: 00:13:00 โขModule 23- Example 4: 00:09:00 โขModule 24- Example 5: 00:05:00 โขModule 25- Fully Controlled Bridge Rectifier Part 1: 00:06:00 โขModule 26- Fully Controlled Bridge Rectifier Part 2: 00:06:00 โขModule 27- Quick Revision on Bridge Full Wave Controlled Rectifier: 00:02:00 โขModule 28- Example 6: 00:08:00 โขModule 29- Half Controlled Bridge Rectifier: 00:08:00 โขModule 30- Half Controlled Bridge Rectifier with FWD: 00:05:00 โขModule 31- Example 7: 00:06:00 โขModule 32- Example 8: 00:07:00 โขModule 33- Performance Parameters: 00:04:00 โขModule 34- Power Factor: 00:04:00 โขModule 1- Introduction to AC Choppers: 00:02:00 โขModule 2- Definition of AC Choppers: 00:05:00 โขModule 3- Switching Techniques in AC Choppers: 00:06:00 โขModule 4- Applications on AC Choppers: 00:03:00 โขModule 5- Types of AC Choppers: 00:02:00 โขModule 6- AC Chopper with R Load: 00:14:00 โขModule 7- Example 1 on AC Chopper with R Load: 00:06:00 โขModule 8- Example 2 on AC Chopper with R Load: 00:04:00 โขModule 9- AC Chopper with L Load Part 1: 00:13:00 โขModule 10- AC Chopper with L Load Part 2: 00:06:00 โขModule 11- Example on AC Chopper with L Load: 00:08:00 โขModule 12- AC Chopper with RL Series Load: 00:20:00 โขModule 13- Example on AC Chopper with RL Series Load: 00:07:00 โขModule 14- AC Chopper with RL Parallel Load: 00:25:00 โขModule 15- Example on AC Chopper with RL Parallel Load: 00:06:00 โขModule 16- AC Chopper with Pure Capacitive Load: 00:14:00 โขModule 17- Example on AC Chopper with Pure Capacitive Load: 00:04:00 โขModule 18- AC Chopper Loaded by Heavy Rectifier: 00:06:00 โขModule 19- AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf: 00:12:00 โขModule 20- Example on AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf: 00:08:00 โขModule 21- Integral Cycle Control: 00:11:00 โขModule 22- Example on Integral Cycle Control: 00:04:00 โขModule 1- Introduction to DC Choppers: 00:02:00 โขModule 2- Definition and Application of DC Choppers: 00:05:00 โขModule 3- Step down DC Chopper with R Load: 00:12:00 โขModule 4- Example on Step Dwon DC Chopper with R Load: 00:08:00 โขModule 5- Generation of Duty Cycle: 00:09:00 โขModule 6- Switching Techniques: 00:03:00 โขModule 7- Step Down DC Chopper with RLE Load Part 1: 00:19:00 โขModule 8- Step Down DC Chopper with RLE Load Part 2: 00:15:00 โขModule 9- Example 1 on Step Down DC Chopper with RLE Load: 00:13:00 โขModule 10- Example 2 on Step Down DC Chopper with RLE Load: 00:02:00 โขModule 11- Step Up DC Chopper with R or RL Load: 00:09:00 โขModule 12- Step Up DC Chopper with RE Load: 00:15:00 โขModule 13- Example on Step Up DC Chopper with RE Load: 00:20:00 โขModule 14- Buck Regulator Part 1: 00:16:00 โขModule 15- Buck Regulator Part 2: 00:17:00 โขModule 16- Example on Buck Regulator: 00:03:00 โขModule 17- Boost Regulator: 00:23:00 โขModule 18- Example on Boost Regulator: 00:06:00 โขModule 19- Buck Boost Converter: 00:17:00 โขModule 20- Example on Buck-Boost Converter: 00:05:00 โขModule 1- Introduction to Inverters: 00:02:00 โขModule 2- Definition of Inverters: 00:04:00 โขModule 3- Importance and Applications of Inverters: 00:08:00 โขModule 4- Single Phase Half Bridge R-Load: 00:15:00 โขModule 5- Single Phase Half Bridge RL- Load: 00:08:00 โขModule 6- Performance Parameters of an Inverter: 00:05:00 โขModule 7- Example on Single Phase Half Bridge: 00:10:00 โขModule 8- Single Phase Bridge Inverter R- Load: 00:06:00 โขModule 9- Single Phase Bridge Inverter RL- Load: 00:07:00 โขModule 10- Example on Single Phase Bridge Inverter: 00:06:00 โขModule 11- Three Phase Inverters and Obtaining the Line Voltages: 00:15:00 โขModule 12- Threee Phase Inverters and Obtaining The Phase Voltages: 00:17:00 โขModule 13- Example on Three Phase Inverters: 00:16:00 โขModule 14- Single Pulse Width Modulation: 00:13:00 โขModule 15- Multiple Pulse Width Modulation: 00:13:00 โขModule 16- Example on Multiple Pulse Width Modulation: 00:04:00 โขModule 17- Sinusoidal Pulse Width Modulation: 00:16:00 โขModule 18- Industrial Inverter: 00:03:00 โขAssignment - Power Electronics for Electrical Engineering: 3 days
Power Electronics, Electrical Protection, and LogixPro - Bundle Course Online
By Lead Academy
Power Electronics, Electrical Protection, and LogixPro - Bundle Course Overview Are you looking to begin your power electronics career or want to develop more advanced skills in power electronics? Then this complete power electronics, electrical protection, and LogixPro - online course will set you up with a solid foundation to become a confident electrical engineer and help you to develop your expertise in power electronics. This complete power electronics, electrical protection, and LogixPro - online course isย accreditedย by theย CPD UKย &ย IPHM. CPD isย globally recognisedย byย employers,ย professional organisationsย and academic intuitions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement.ย CPD certified certificatesย areย acceptedย by thousands ofย professional bodiesย andย government regulatorsย here in theย UKย andย around the world. Whether you are self-taught and you want to fill in the gaps for better efficiency and productivity, this complete power electronics, electrical protection, and LogixPro - online course will set you up with a solid foundation to become a confident electrical engineer and develop more advanced skills. Gain the essential skills and knowledge you need to propel your career forward as a electrical engineer. The complete power electronics, electrical protection, and LogixPro - online course will set you up with the appropriate skills and experience needed for the job and is ideal for both beginners and those currently working as a electrical engineer. This comprehensive complete power electronics, electrical protection, and LogixPro - online course is the perfect way to kickstart your career in the field of power electronics. This complete power electronics, electrical protection, and LogixPro - online course will give you a competitive advantage in your career, making you stand out from all other applicants and employees. If you're interested in working as a electrical engineerย or want to learn more skills on power electronicsย but unsure of where to start, then this complete power electronics, electrical protection, and LogixPro - online course will set you up with a solid foundation to become a confident electrical engineer and develop more advanced skills. As one of the leading course providers and most renowned e-learning specialists online, we're dedicated to giving you the best educational experience possible. This complete power electronics, electrical protection, and LogixPro - onlineย course is crafted by industry expert, to enable you to learn quickly and efficiently, and at your own pace and convenience. Who should take this course? This comprehensive complete power electronics, electrical protection, and LogixPro - onlineย course is suitable for anyone looking to improve their job prospects or aspiring to accelerate their career in this sector and want to gain in-depth knowledge of power electronics. Entry Requirements There are no academic entry requirements for this complete power electronics, electrical protection, and LogixPro - onlineย course, and it is open to students of all academic backgrounds. As long as you are aged seventeen or over and have a basic grasp of English, numeracy and ICT, you will be eligible to enrol. Career path This complete power electronics, electrical protection, and LogixPro - onlineย course opens a brand new door for you to enter the relevant job market and also provides you with the chance to accumulate in-depth knowledge at the side of needed skills to become flourishing in no time. You will also be able to add your new skills to your CV, enhance your career and become more competitive in your chosen industry. Course Curriculum Introduction to Power Electronics Components Introduction to Power Electronics Uncontrolled Switches What Is The Benefit of Diode. Semi-Controlled Switches Part 1 Semi-Controlled Switches Part 2 Semi-Controlled Switches Part 3 What Is The Benefit of Thyristor. Fully Controlled Switches Part 1 Fully Controlled Switches Part 2 Fully Controlled Switches Part 3 Fundamentals of Rectifier Circuits Overview on Rectifiers Rectifier Definition Half Wave Uncontrolled Rectifier With R Load Example on Half Wave Uncontrolled Rectifier with R Load Part 1 Example on Half Wave Uncontrolled Rectifier with R Load Part 2 Half Wave Uncontrolled Rectifier with RL Load Derivation of Current in R-L Load Freewheeling Diode (Commutation Diode) Half-wave R-L Load With FWD Difference between Continuous and Discontinuous Mode in RL Load Half Wave RL Load Continuous Mode with FWD Example on Half Wave Uncontrolled Rectifier with FWD Bridge Full Wave Uncontrolled Rectifier Part 1 Bridge Full Wave Uncontrolled Rectifier Part 2 Quick Revision on Bridge Full-wave Uncontrolled Rectifier Firing Angle Half-Wave Controlled Rectifier R Load Half-Wave Controlled Rectifier R-L Load Half Wave Controlled R-L Load with FWD Example 1 Example 2 Example 3 Example 4 Example 5 Fully Controlled Bridge Rectifier Part 1 Fully Controlled Bridge Rectifier Part 2 Quick Revision on Bridge Full Wave Controlled Rectifier Example 6 Half Controlled Bridge Rectifier Half Controlled Bridge Rectifier with FWD Example 7 Example 8 Performance Parameters Power Factor Fundamentals of AC Choppers Introduction to AC Choppers Definition of AC Chopper Switching Techniques in AC Choppers Applications on AC Choppers Types of AC Choppers AC Chopper with R Load Example 1 on AC Chopper with R Load Example 2 on AC Chopper with R Load AC Chopper with L Load Part 1 AC Chopper with L Load Part 2 Example on AC Chopper with L Load AC Chopper with RL Series Load Example on AC Chopper with RL Series Load AC Chopper with RL Parallel Load Example on AC Chopper with RL Parallel Load AC Chopper with Pure Capacitive Load Example on AC Chopper with Pure Capacitive Load AC Chopper Loaded by Heavy Rectifier AC Chopper Loaded by AC Motor with Sinusoidal Back Emf Example on AC Chopper Loaded by AC Motor with Sinusoidal Back Emf Integral Cycle Control Example on Integral Cycle Control Fundamentals of DC Choppers Introduction to DC Choppers Definition and Applications of DC Choppers Step Down DC Chopper with R Load Example on Step Down DC Chopper with R Load Generation of Duty Cycle Switching Techniques Step Down DC Chopper with RLE Load Part 1 Step Down DC Chopper with RLE Load Part 2 Example 1 on Step Down DC Chopper with RLE Load Example 2 on Step Down DC Chopper with RLE Load Step Up DC Chopper with R or RL Load Step Up DC Chopper with RE Load Example on Step Up DC Chopper with RE Load Buck Regulator Part 1 Buck Regulator Part 2 Example on Buck Regulator Boost Regulator Example on Boost Regulator Buck-Boost Converter Example on Buck-Boost Converter Fundamentals of Inverters Introduction to Inverters Definition of Inverter Importance and Applications of Inverters Single Phase Half Bridge R Load Single Phase Half Bridge RL Load Performance Parameters of Inverter Example on Single Phase Half Bridge Single Phase Bridge Inverter R Load Single Phase Bridge Inverter RL Load Example on Single Phase Bridge Inverter Three Phase Inverters and Obtaining The Line Voltages Three Phase Inverters and Obtaining The Phase Voltages Example on Three Phase Inverters Single Pulse Width Modulation Multiple Pulse Width Modulation Example on Multiple Pulse Width Modulation Sinusoidal Pulse Width Modulation Industrial Inverter Recognised Accreditation CPD Certification Service This course is accredited by continuing professional development (CPD). CPD UK is globally recognised by employers, professional organisations, and academic institutions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. CPD certificates are accepted by thousands of professional bodies and government regulators here in the UK and around the world. Many organisations look for employees with CPD requirements, which means, that by doing this course, you would be a potential candidate in your respective field. Certificate of Achievement Certificate of Achievement from Lead Academy After successfully passing the MCQ exam you will be eligible to order your certificate of achievement as proof of your new skill. The certificate of achievement is an official credential that confirms that you successfully finished a course with Lead Academy. Certificate can be obtained in PDF version at a cost of รยฃ12, and there is an additional fee to obtain a printed copy certificate which is รยฃ35. ย FAQs Is CPD a recognised qualification in the UK? CPD is globally recognised by employers, professional organisations and academic intuitions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. CPD-certified certificates are accepted by thousands of professional bodies and government regulators here in the UK and around the world. Are QLS courses recognised? Although QLS courses are not subject to Ofqual regulation, they must adhere to an extremely high level that is set and regulated independently across the globe. A course that has been approved by the Quality Licence Scheme simply indicates that it has been examined and evaluated in terms of quality and fulfils the predetermined quality standards. When will I receive my certificate? For CPD accredited PDF certificate it will take 24 hours, however for the hardcopy CPD certificate takes 5-7 business days and for the Quality License Scheme certificate it will take 7-9 business days. Can I pay by invoice? Yes, you can pay via Invoice or Purchase Order, please contact us at info@lead-academy.org for invoice payment. Can I pay via instalment? Yes, you can pay via instalments at checkout. How to take online classes from home? Our platform provides easy and comfortable access for all learners; all you need is a stable internet connection and a device such as a laptop, desktop PC, tablet, or mobile phone. The learning site is accessible 24/7, allowing you to take the course at your own pace while relaxing in the privacy of your home or workplace. Does age matter in online learning? No, there is no age limit for online learning. Online learning is accessible to people of all ages and requires no age-specific criteria to pursue a course of interest. As opposed to degrees pursued at university, online courses are designed to break the barriers of age limitation that aim to limit the learner's ability to learn new things, diversify their skills, and expand their horizons. When I will get the login details for my course? After successfully purchasing the course, you will receive an email within 24 hours with the login details of your course. Kindly check your inbox, junk or spam folder, or you can contact our client success team via info@lead-academy.org
Electrical Machines Online Course for Electrical Engineers - Bundle
By Study Plex
Highlights of the Course Course Type: Online Learning Duration: 1 to 2 hours Tutor Support: Tutor support is included Customer Support: 24/7 customer support is available Quality Training: The course is designed by an industry expert Recognised Credential: Recognised and Valuable Certification Completion Certificate: Free Course Completion Certificate Included Instalment: 3 Installment Plan on checkout What you will learn from this course? Gain comprehensive knowledge about electrical machines Understand the core competencies and principles of electrical machines Explore the various areas of electrical machines Know how to apply the skills you acquired from this course in a real-life context Become a confident and expert electrical engineer Electrical Machines Online Course for Electrical Engineers - Bundle Course Master the skills you need to propel your career forward in electrical machines. 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Entry Requirements This electrical machinesย course has no academic prerequisites and is open to students from all academic disciplines. You will, however, need a laptop, desktop, tablet, or smartphone, as well as a reliable internet connection. Assessment This electrical machinesย course assesses learners through multiple-choice questions (MCQs). Upon successful completion of the modules, learners must answer MCQs to complete the assessment procedure. Through the MCQs, it is measured how much a learner could grasp from each section. In the assessment pass mark is 60%. Advance Your Career This electrical machinesย course will provide you with a fresh opportunity to enter the relevant job market and choose your desired career path. Additionally, you will be able to advance your career, increase your level of competition in your chosen field, and highlight these skills on your resume. Recognised Accreditation This course is accredited by continuing professional development (CPD). CPD UK is globally recognised by employers, professional organisations, and academic institutions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. Course Curriculum Course Content Introduction to Electric Machines 00:03:00 Types of Electric Machines and Principle of Electricity Generation 00:09:00 DC Machines Importance and Construction of DC Machines 00:26:00 Armature Winding and EMF Equation 00:39:00 Solved Example 1 00:04:00 Solved Example 2 00:03:00 Solved Example 3 00:07:00 Solved Example 4 00:06:00 Separately Excited DC Machine 00:20:00 Shunt and Series DC Machines 00:25:00 Solved Example 1 on Separately Excited DC Machine 00:07:00 Solved Example 2 on Separately Excited DC Machine 00:07:00 Solved Example 3 on Shunt Generator 00:04:00 Solved Example 4 on Shunt Generator 00:06:00 Solved Example 5 on Series DC Generator 00:06:00 Types and Applications of Compound DC Motors 00:07:00 Torque-Speed Characteristics and Speed Control of Separately Excited DC Motor 00:33:00 Torque-Speed Characteristics of Series DC Motor 00:08:00 Solved Example 1 on Speed Control 00:08:00 Solved Example 2 on Speed Control 00:05:00 Starting of DC Machine 00:13:00 Armature Reaction in DC Machines 00:10:00 Losses in DC Machines 00:03:00 Construction of Transformer What is The Construction of Transformer, Importance and Iron Core 00:02:00 Magnetic Circuit Inside Transformer 00:04:00 Windings of Transformer 00:03:00 Why are Windings Made of Copper 00:01:00 Classification of Windings 00:04:00 Insulating Material and Transformer Oil 00:02:00 Conservator of Transformer 00:02:00 Breather of Transformer 00:03:00 Bushings of Transformer 00:04:00 Tap Changer of Transformer 00:03:00 Cooling Tubes of Transformer 00:01:00 Buchholz Relay of Transformer 00:02:00 Explosion Vent In Transformer 00:02:00 Methods of Cooling In Transformer 00:02:00 Types of Transformers 00:02:00 Power Transformer and Distribution Transformer 00:05:00 Single Phase Core Type Transformer 00:04:00 Single Phase Shell Type Transformer 00:04:00 Three Phase Core Type Transformer 00:01:00 Three Phase Shell Type Transformer 00:01:00 Comparison between Shell and Core CSA 00:01:00 Comparison between Shell and Core Type 00:01:00 Notes 00:03:00 Video Explaining The Components in 3D and Real Life 00:04:00 Fundamentals of Magnetic Circuits for Electrical Engineering Introduction to Magnetic Circuits 00:02:00 Induced Emf and Current 00:04:00 Ampere Right Hand Rule 00:04:00 Magnetic Circuit and Important Definitions 00:06:00 Linear and Non Linear Materials 00:02:00 Flux Linkage and Reluctance 00:03:00 Analogy between Electric and Magnetic Circuits 00:05:00 Fringing Effect 00:01:00 Example 1 Magnetic Circuits 00:06:00 Example 2 00:02:00 Example 3 00:05:00 Application on Magnetic Circuit - Transformers 00:03:00 Theoretical Part on Transformers Introduction to Transformers 00:02:00 Construction of Transformer 00:01:00 Theory of Operation 00:04:00 Ideal Transformer 00:04:00 Non Ideal Transformer 00:02:00 Effect of Loading on Transformer 00:03:00 Transformer Regulation 00:02:00 Transformer Losses 00:03:00 Transformer Efficiency 00:04:00 Transformer Rating 00:01:00 Question 1 00:01:00 Question 2 00:01:00 Question 3 00:01:00 Example 1 00:01:00 Voltage Relation of Transformer 00:04:00 Transformer Exact Equivalent Circuit 00:06:00 Concept of Refereeing 00:04:00 Approximate Equivalent Circuit 00:02:00 Synchronous Machines Construction and Principle of Operation of Synchronous Generator 00:29:00 Principle of Operation of Synchronous Motor 00:24:00 Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine 00:29:00 Solved Example 1 on Non Salient Machine 00:04:00 Solved Example 2 on Non Salient Machine 00:10:00 Solved Example 3 on Non Salient Machine 00:07:00 Solved Example 4 on Non Salient Machine 00:04:00 Solved Example 5 on Non Salient Machine 00:07:00 Solved Example 6 on Non Salient Machine 00:03:00 Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine 00:38:00 Solved Example 1 on Salient Machine 00:09:00 Solved Example 2 on Salient Machine 00:05:00 Solved Example 3 on Salient Machine 00:09:00 Parallel Operation of Two Generators 00:17:00 Synchronization of Machine with Grid 00:10:00 Induction Machines Construction and Theory of Operation of Induction Machines 00:27:00 Equivalent Circuit and Power Flow in Induction Motor 00:23:00 Torque-Speed Characteristics of Induction Motor 00:19:00 Solved Example 1 on Induction Motor 00:07:00 Solved Example 2 on Induction Motor 00:06:00 Solved Example 3 on Induction Motor 00:06:00 Solved Example 4 on Induction Motor 00:18:00 Solved Example 5 on Induction Motor 00:13:00 Methods of Speed Control of Induction Motor 00:27:00 Methods of Starting of Induction Motor 00:21:00 Solved Example on Motor Starter 00:14:00 Principle of Operation of Doubly Fed Induction Generator 00:11:00 Self Excited Induction Generator 00:08:00 Obtain Your Certificate Order Your Certificate of Achievement 00:00:00 Get Your Insurance Now Get Your Insurance Now 00:00:00 Feedback Feedback 00:00:00
Course Overview Gain an excellent understanding of power electronics and power systems by taking this Power Electronics for Electrical Engineering course.ย The Power Electronics for Electrical Engineering course will provide a thorough overview of power electronics fundamentals and their importance. Here, you will learn about the power electronics components and understand the working principle of rectifier circuits. Furthermore, you will learn about the design and implementation of AC and DC choppers and explore the fundamentals of inverters in power electronics. Learning Outcomes Identify the primary purpose of power electronics Understand how power electronics work Know about rectifiers and their operations Determine how AC and DC choppers work Gain insights into the inverter fundamentals and types Who is this course for? Anyone interested in improving their knowledge of electrical circuit analysis can take this Power Electronics for Electrical Engineering course. Entry Requirement This course is available to all learners, of all academic backgrounds. Learners should be aged 16 or over to undertake the qualification. Good understanding of English language, numeracy and ICT are required to attend this course. Certification After you have successfully completed the course, you will be able to obtain an Accredited Certificate of Achievement. You can however also obtain a Course Completion Certificate following the course completion without sitting for the test. Certificates can be obtained either in hardcopy at the cost of ยฃ39 or in PDF format at the cost of ยฃ24. PDF certificate's turnaround time is 24 hours, and for the hardcopy certificate, it is 3-9 working days. Why choose us? Affordable, engaging & high-quality e-learning study materials; Tutorial videos/materials from the industry-leading experts; Study in a user-friendly, advanced online learning platform; Efficient exam systems for the assessment and instant result; The UK & internationally recognized accredited qualification; Access to course content on mobile, tablet or desktop from anywhere anytime; The benefit of career advancement opportunities; 24/7 student support via email. Career Path Power Electronics for Electrical Engineering course offers useful skills to possess and would be beneficial for any relevant profession or career such as: Electronics: Apprentice Electrician Electronics: Industrial Electricians Electronics: Commercial Electrician Electronics: Residential Electrician Electronics: Maintenance Electrician Auto Electrician Unit 1- Introduction to Power Electronics Components Module 1- Introduction to Power Electronics 00:13:00 Module 2- Uncontrolled Switches 00:17:00 Module 3- What is the Benefit of Diode 00:06:00 Module 4- Semi-Controlled Switches Part 1 00:09:00 Module 5- Semi-Controlled Switches Part 2 00:14:00 Module 6- Semi-Controlled Switches Part 3 00:05:00 Module 7- What is the Benefit of Thyristor 00:05:00 Module 8- Fully Controlled Switches Part 1 00:17:00 Module 9- Fully Controlled Switches Part 2 00:10:00 Module 10- Fully Controlled Switches Part 3 00:12:00 Unit 2- Fundamentals of Rectifier Circuits Module 1- Overview on Rectifiers 00:02:00 Module 2- Rectifier Definition 00:01:00 Module 3- Half Wave Uncontrolled Rectifier with R Load 00:21:00 Module 4- Example on Half Wave Uncontrolled Rectifier with R Load Part 1 00:06:00 Module 5- Example on Half Wave Uncontrolled Rectifier with R Load Part 2 00:07:00 Module 6- Half Wave Uncontrolled Rectifier with RL Load 00:10:00 Module 7- Derivation of the Discontinuous Current in R-L Load 00:08:00 Module 8- Freewheeling Diode (Commutation Diode) 00:03:00 Module 9- Half Wave R-L Load with FWD 00:09:00 Module 10- Difference Between Continuous and Discontinuous Mode in RL Load 00:07:00 Module 11- Half Wave RL Load with FWD Continuous Mode 00:06:00 Module 12- Example on Half Wave Rectifier with FWD 00:07:00 Module 13- Bridge Full Wave Uncontrolled Rectifier Part 1 00:07:00 Module 14- Bridge Full Wave Uncontrolled Rectifier Part 2 00:05:00 Module 15- Quick Revision on Bridge Full Wave Uncontrolled Rectifier 00:06:00 Module 16- Firing Angle 00:02:00 Module 17- Half Wave Controlled Rectifier R Load 00:05:00 Module 18- Half Wave Controlled Rectifier R-L Load 00:04:00 Module 19- Half Controlled R-L Load with FWD 00:06:00 Module 20- Example 1 00:07:00 Module 21- Example 2 00:08:00 Module 22- Example 3 00:13:00 Module 23- Example 4 00:09:00 Module 24- Example 5 00:05:00 Module 25- Fully Controlled Bridge Rectifier Part 1 00:06:00 Module 26- Fully Controlled Bridge Rectifier Part 2 00:06:00 Module 27- Quick Revision on Bridge Full Wave Controlled Rectifier 00:02:00 Module 28- Example 6 00:08:00 Module 29- Half Controlled Bridge Rectifier 00:08:00 Module 30- Half Controlled Bridge Rectifier with FWD 00:05:00 Module 31- Example 7 00:06:00 Module 32- Example 8 00:07:00 Module 33- Performance Parameters 00:04:00 Module 34- Power Factor 00:04:00 Unit 3- Fundamentals of AC Choppers Module 1- Introduction to AC Choppers 00:02:00 Module 2- Definition of AC Choppers 00:05:00 Module 3- Switching Techniques in AC Choppers 00:06:00 Module 4- Applications on AC Choppers 00:03:00 Module 5- Types of AC Choppers 00:02:00 Module 6- AC Chopper with R Load 00:14:00 Module 7- Example 1 on AC Chopper with R Load 00:06:00 Module 8- Example 2 on AC Chopper with R Load 00:04:00 Module 9- AC Chopper with L Load Part 1 00:13:00 Module 10- AC Chopper with L Load Part 2 00:06:00 Module 11- Example on AC Chopper with L Load 00:08:00 Module 12- AC Chopper with RL Series Load 00:20:00 Module 13- Example on AC Chopper with RL Series Load 00:07:00 Module 14- AC Chopper with RL Parallel Load 00:25:00 Module 15- Example on AC Chopper with RL Parallel Load 00:06:00 Module 16- AC Chopper with Pure Capacitive Load 00:14:00 Module 17- Example on AC Chopper with Pure Capacitive Load 00:04:00 Module 18- AC Chopper Loaded by Heavy Rectifier 00:06:00 Module 19- AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf 00:12:00 Module 20- Example on AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf 00:08:00 Module 21- Integral Cycle Control 00:11:00 Module 22- Example on Integral Cycle Control 00:04:00 Unit 4- Fundamentals of DC Choppers Module 1- Introduction to DC Choppers 00:02:00 Module 2- Definition and Application of DC Choppers 00:05:00 Module 3- Step down DC Chopper with R Load 00:12:00 Module 4- Example on Step Down DC Chopper with R Load 00:08:00 Module 5- Generation of Duty Cycle 00:09:00 Module 6- Switching Techniques 00:03:00 Module 7- Step Down DC Chopper with RLE Load Part 1 00:19:00 Module 8- Step Down DC Chopper with RLE Load Part 2 00:15:00 Module 9- Example 1 on Step Down DC Chopper with RLE Load 00:13:00 Module 10- Example 2 on Step Down DC Chopper with RLE Load 00:02:00 Module 11- Step Up DC Chopper with R or RL Load 00:09:00 Module 12- Step Up DC Chopper with RE Load 00:15:00 Module 13- Example on Step Up DC Chopper with RE Load 00:20:00 Module 14- Buck Regulator Part 1 00:16:00 Module 15- Buck Regulator Part 2 00:17:00 Module 16- Example on Buck Regulator 00:03:00 Module 17- Boost Regulator 00:23:00 Module 18- Example on Boost Regulator 00:06:00 Module 19- Buck Boost Converter 00:17:00 Module 20- Example on Buck-Boost Converter 00:05:00 Unit 5- Fundamentals of Inverters Module 1- Introduction to Inverters 00:02:00 Module 2- Definition of Inverters 00:04:00 Module 3- Importance and Applications of Inverters 00:08:00 Module 4- Single Phase Half Bridge R-Load 00:15:00 Module 5- Single Phase Half Bridge RL- Load 00:08:00 Module 6- Performance Parameters of an Inverter 00:05:00 Module 7- Example on Single Phase Half Bridge 00:10:00 Module 8- Single Phase Bridge Inverter R- Load 00:06:00 Module 9- Single Phase Bridge Inverter RL- Load 00:07:00 Module 10- Example on Single Phase Bridge Inverter 00:06:00 Module 11- Three Phase Inverters and Obtaining the Line Voltages 00:15:00 Module 12- Three Phase Inverters and Obtaining The Phase Voltages 00:17:00 Module 13- Example on Three Phase Inverters 00:16:00 Module 14- Single Pulse Width Modulation 00:13:00 Module 15- Multiple Pulse Width Modulation 00:13:00 Module 16- Example on Multiple Pulse Width Modulation 00:04:00 Module 17- Sinusoidal Pulse Width Modulation 00:16:00 Module 18- Industrial Inverter 00:03:00 Certificate and Transcript Order Your Certificates and Transcripts 00:00:00
